Freshwater Stream Sediment Monitoring Program
Freshwater Stream Sediment Review of Historical Monitoring
Data 1987–2002
March 2006
Alternate Formats Available 206-296-7380 TTY Relay: 711
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Acknowledgements Jon Shields, King County Water and Land Resources Division, was the primary author of this report. Tom Georgianna, conducted the statistical analyses. Jean Power, provided text describing the fieldwork and sample collection methods. Katherine Bourbonais and Colin Elliott, provided text describing the laboratory analyses and associated quality assurance / quality control methods. Jim Simmonds, Deanna Matzen, Deborah Lester, Curtis Degasperi, and Dean Wilson, provided technical review and comment on the draft report.
Citation King County. 2005. Freshwater stream sediments: review of historical monitoring data 1987-
2002. Prepared by Jon Shields, Water and Land Resources Division. Seattle, Washington.
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Table of Contents Executive Summary ....................................................................................................................... vi
1.0. Introduction......................................................................................................................... 1
1.1 Purpose of Report ........................................................................................................... 1
1.2 Scope of Freshwater Stream Sediment Monitoring Program ......................................... 1
2.0. Methods............................................................................................................................... 2
2.1 Sampling Locations and Frequency................................................................................ 2
2.2 Field Methods ................................................................................................................. 2
2.2.1 Sampling Equipment............................................................................................... 2
2.2.2 Determination of Sample Collection Locations...................................................... 2
2.2.3 Sample Collection and Compositing Procedures.................................................... 2
2.2.4 Sample Transport and Handling ............................................................................. 3
2.2.5 Field Sampling Records.......................................................................................... 3
2.2.6 Field QC Sample Collection ................................................................................... 3
2.3 Parameters Included in Analysis..................................................................................... 3
2.4 Analytical Methods......................................................................................................... 5
2.4.1 Grain Size Distribution ........................................................................................... 5
2.4.2 Metals...................................................................................................................... 5
2.4.3 Organic Compounds ............................................................................................... 5
2.5 Freshwater Sediment Quality Guidelines ....................................................................... 6
2.6 Statistical Analyses ......................................................................................................... 8
2.6.1 Correlation Analysis ............................................................................................... 8
2.6.2 Trend Analysis ........................................................................................................ 9
2.6.3 Between-site Differences ........................................................................................ 9
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2.6.4 Quality Assurance/Quality Control......................................................................... 9
3.0. Results............................................................................................................................... 10
3.1 Grain Size Distribution ................................................................................................. 10
3.2 Metals............................................................................................................................ 12
3.3 Organic Compounds ..................................................................................................... 20
4.0. Discussion and conclusions .............................................................................................. 22
5.0. References......................................................................................................................... 25
Figures
Figure 1. Sediment sampling locations, King County, Washington .......................................... 1
Figure 2. Average grain size distribution (gravel, sand, silt, clay) by site ............................... 11
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Tables Table 1. Sediment sampling frequency by parameter type and location .................................. 1
Table 2. Summary of Parameters Included in Analysis............................................................ 4
Table 3. Freshwater Sediment Quality Guidelines for parameters evaluated in this study (Smith et al. 1996 and Avocet 2003). ..................................................................................... 7
Table 4. Summary of sediment metal data across sampling locations, with comparison of maximum detected concentrations to PEL and TEL FSQGs. All units mg/kg dry wt. ....... 15
Table 5. Summary of sediment metal data across sampling locations, with comparison of maximum detected concentrations to CSL and SQS FSQGs. All units mg/kg dry wt........ 16
Table 6. Comparison of sediment metals data with no FSQGs, regional lake sediment quality data and regional upland soils............................................................................................... 17
Table 7. Maximum concentrations of metals detected at least once in sediments by sampling site, with comparison to FSQG. All units as mg/kg dry wt. ................................................ 18
Table 8. Maximum concentrations of organic chemicals detected at least once in sediments by sampling site, with comparison to FSQG. All units as µg/kg dry wt. ............................ 20
Table 9. Field equipment used in sediment sampling............................................................. 28
Table 10. Summary statistics for sediment grain size distribution ........................................... 39
Table 11. Summary statistics for chemical parameters in freshwater stream sediments, King County, Washington ............................................................................................................. 43
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Appendices Appendix A: Field Sampling Equipment
Appendix B: Analytical Methods
Appendix C: Summary Statistics for Grain Size Distribution Parameters
Appendix D: Chemical Parameters
Appendix D-1: Summary Statistics for Chemical Parameters
Appendix D-2: Chemical Parameters Graphs by Sampling Site
Appendix E: Correlation Analysis Results
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EXECUTIVE SUMMARY Twenty-seven freshwater stream sites in King County, Washington were sampled for sediment quality over the period 1987–2002. The primary focus of the monitoring program was sampling and analysis for metals and grain size distributions, with some additional analysis of petroleum hydrocarbons and limited analysis of other organic compounds.
170 chemical parameters were analyzed. Data for four petroleum hydrocarbons parameters are not presented in this report due to a lack of guidelines or adequate comparison data. Of the 166 chemical parameters evaluated in this report, 32 were detected at least once while 134 were never detected. Of the 36 parameters detected at least once, there were 17 metals and 15 organic chemicals.
Grain size analysis indicated that sampling sites primarily consisted of sand (~54–80%), with more highly variable amounts of gravel, silt and clay across sites. Variability at a given sampling location over time was also high. However, this is not unexpected due to the natural heterogeneity of stream sediment.
Maximum concentrations of five metals (arsenic, cadmium lead, nickel and zinc) were detected at levels that exceeded their respective freshwater sediment quality guidelines (FSQGs). Although data for organic compounds are limited due to the small number of analyses, the maximum concentration of chlordane exceeded its FSQG. At locations where parameters exceeded probable effects levels, confirmatory chemical testing and possibly toxicity testing would be warranted to understand the scope of any contamination problem.
Correlation analyses determined that all metals and two organics with >50% frequency of detection were significantly positively correlated with percent fines, significantly negatively correlated with percent coarse. In general, metals parameters were significantly correlated with each other. No statistically significant trends over time were observed, possibly due to limitations of the sampling design.
Data gaps were noted regarding inconsistencies in sample design and sampling intensity over space and time, and regarding lack of data for certain auxiliary parameters (e.g., Acid Volatile Sulfides; Total Organic Carbon) that could be helpful in interpretation of other collected data.
It is recommended that future monitoring use a stratified, random sampling design with specific goals in mind, i.e. long-term trend analysis, ecological risk assessment, or between-site differences. Currently sampling sites are located at the mouth of the creek. The use of a stratified, random sampling design will allow for a broader characterization of sediments within a particular watershed.
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1.0. INTRODUCTION Sediment quality has become generally recognized as providing an indication of water quality integrated over time; many chemicals released to the aquatic environment ultimately become associated with bottom sediments (Dillon et al. 1997). As part of King County government’s mission to monitor and protect water quality, freshwater stream sediment samples were collected for analysis of physical and chemical properties. This data report describes the monitoring program and provides a review of the historical freshwater stream sediment quality data for the period 1987–2002.
1.1 Purpose of Report The primary purpose of this report is to provide a comprehensive review of the existing body of data generated by the freshwater stream sediment monitoring program. The report provides details regarding the monitoring program design and provides a summary and interpretation of sediment quality data generated to date.
A secondary purpose of this report is to provide information to inform decision-making regarding the future direction of the monitoring program. Accordingly, this report also includes discussion of known data gaps and issues in interpreting data.
1.2 Scope of Freshwater Stream Sediment Monitoring Program
Sampling events included in this report were conducted between 1987 and 2002 at 27 freshwater stream sampling locations within Water Resources Inventory Areas (WRIAs) 8 and 9.
The primary focus of the monitoring program to date has been sampling and analysis of sediment-associated metals and grain size distribution. Less frequently, samples were analyzed for organic compounds. One sampling event in September 1995 analyzed a broad range of organic compounds at a subset of six of the 27 sampling locations. In addition, samples were analyzed in September 1998 for selected herbicides at three of the 27 sampling locations. Four petroleum hydrocarbon parameters were analyzed at a lower frequency than the metal parameters and a higher frequency than the organic parameters. However, due to the lack of guidelines or comparison data, the interpretation of the petroleum hydrocarbon data is severely limited and is, therefore, omitted from this report.
Further details regarding sampling locations, sampling frequency by location and parameter type, and sampling and analytical methods are provided in Section 2.1. The scope of the sampling and analysis activities varied by location and sampling event, e.g., not all locations were sampled every year for all parameters during each sampling event and not all parameters were analyzed using the same analytical methods and method detection limits (MDLs) consistently over the course of the monitoring program. These methodological issues are discussed further in Section 4.0.
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2.0. METHODS This section describes sampling locations, sampling frequency, field methods, laboratory analytical methods and parameters analyzed. Freshwater sediment quality guidelines (FSQG) are identified to serve as benchmarks for evaluating sediment quality and the potential for ecological impacts.
2.1 Sampling Locations and Frequency Sediment samples were collected at 27 locations within WRIAs 8 and 9 (Figure 1). Many of the sampling locations are at or near the streams confluence with one of the major lakes, Lakes Sammamish, Washington and Union. Sampling frequency varied between sites (Table 1). Samples were not collected at all locations during each annual sampling event, and not all parameters were analyzed during each sampling event.
In general, the focus of sample collection efforts was annual sampling and analysis of metals and grain size distribution. Samples were typically collected in late summer/early fall during low-flow conditions. Additional parameters were occasionally included, but these were analyzed less frequently (e.g., organic compounds were analyzed at six locations in 1995 and a short list of herbicides were analyzed at three locations in 1998).
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Figure 1. Sediment sampling locations, King County, Washington
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Table 1. Sediment sampling frequency by parameter type and location
Sample Site (Locator) Grain Size Metals Organics
Bear Creek (0484) 14 16 0
Big Soos Creek (A320) 14 16 0
Coal Creek East (0442) 14 16 1
Crisp Creek (0321) 10 10 0
Ebright Creek (A685) 7 7 0
Eden Creek (A690) 7 8 1
Fairweather Bay Trib (0498) 14 16 0
Forbes Creek (0456) 14 16 0
Idylwood Creek (A620) 8 8 1
Issaquah Creek (0631) 14 16 1
Juanita Creek (0446) 14 16 0
Lewis Creek (A617) 7 8 2
Little Bear Creek (0478) 14 16 0
Lyon Creek (0430) 14 16 0
May Creek (0440) 14 16 1
McAleer Creek (0432) 13 15 0
Mercer Slough (0444) 14 16 0
Mill Creek (A315) 14 16 0
Newaukum Creek (0322) 14 16 0
North Creek (0474) 14 16 0
Pine Lake Creek (A680) 7 7 1
Pipers Creek (0210) 11 12 0
Springbrook Creek (0317) 11 13 0
Swamp Creek (0470) 13 15 0
Thornton Creek (0434) 14 16 0
Tibbetts Creek (0630) 12 15 1
Yarrow Bay Trib (0499) 14 16 0
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2.2 Field Methods This section describes the equipment used for sample collection, procedures for selecting sampling sites, sample collection, transport and handling procedures, field sampling records, sediment sample compositing procedures, and collection of quality control (QC) samples (field replicates).
2.2.1 Sampling Equipment Field equipment and supplies used in the collection of samples for the sediment monitoring program are listed in Appendix A.
2.2.2 Determination of Sample Collection Locations The majority of the sediment samples were collected at the mouths of streams in King County routine water quality stream monitoring program.
As outlined in the EPA method for sampling stream sediments, “...contaminants are more likely to be concentrated in sediments typified by fine particle size and high organic matter content. This type of sediment is most likely to be collected from depositional zones” (USEPA 1994). For this reason, King County Environmental Lab (KCEL) personnel attempted to select sampling locations where fines were present. If no such location was found, a location with the smallest grain size observed was sampled.
Where appropriate, a handheld GPS unit was used to acquire and record NAD83 coordinates for latitude and longitude of the sampling location.
2.2.3 Sample Collection and Compositing Procedures Samples were collected from streams at least two feet deep using a pre-cleaned PVC core tube to penetrate the bottom sediment to a depth of five to ten centimeters. A stainless steel spatula or gloved hand was inserted under the core tube mouth to trap the sediment inside, and the tube removed from the stream. The tube was slowly angled to the side to allow excess water to drain off; care was taken not to allow fines to escape. The sediment in the tube was then transferred into a pre-cleaned stainless steel compositing container. The process was repeated a minimum of five times to acquire an appropriate volume of material to fill all sample containers after compositing. Where core tube penetration was poor or the streambed rocky or gravelly, additional material was collected. Excess water in the compositing container was decanted off once fines had been allowed to settle. A stainless steel spoon or spatula was used to homogenize the sample. Rocks or other debris approximately 1.3 cm (half-inch) diameter or larger were removed and discarded.
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2.2.4 Sample Transport and Handling Once collected, samples were placed in coolers with ice for storage prior to transport to the KCEL. Chain of custody (COC) procedures were followed from time of collection to time of disposal after analyses were completed.
2.2.5 Field Sampling Records Sampling personnel recorded information including collection date, time, staff initials, number and penetration depth of cores collected to form the composite sample, GPS coordinates, and any additional notes about the sampling site. Field sheets and sample container labels were used to track handling of samples.
2.2.6 Field QC Sample Collection Field replicates were collected between 1993 and 2002; prior to 1993 no replicates were collected. The number of replicates collected each year varied from one to three and were always collected at the Big Soos Creek site. The other replicates were randomly collected from five other sites, Idylwood Creek, Juanita Creek, May Creek, Mercer Slough, and Pine Lake Creek. For the statistical analyses, the maximum parameter concentration of the two replicate samples was used.
2.3 Parameters Included in Analysis All parameters included in this data review are listed in Table 2. These include 20 metals, 146 organic compounds, and grain size distribution. Four petroleum hydrocarbon parameters were analyzed but not included in the data analysis.
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Table 2. Summary of Parameters Included in Analysis GRAIN SIZE ORGANICS ORGANICS CONTINUED ORGANICS CONTINUED ORGANICS CONTINUED ORGANICS CONTINUED ORGANICS CONTINUED
Clay Acenaphthene Bromodichloromethane 4,4'-DDE 2,6-Dinitrotoluene 2-Methylnaphthalene 1,1,2,2-Tetrachloroethane
Gravel Acenaphthylene Bromoform 4,4'-DDT Dinoseb 2-Methylphenol Tetrachloroethylene
Sand Acetone Bromomethane Dibenzo(a,h)anthracene Di-N-octyl phthalate 4-Methylphenol Toluene
Silt Acrolein 4-Bromophenyl phenyl ether Dibenzofuran 1,2-Diphenylhydrazine Naphthalene Toxaphene
Acrylonitrile 2-Butanone Di-N-butyl phthalate Endosulfan I 2-Nitroaniline 2,4,5-TP
METALS Aldrin Carbazole Dicamba Endosulfan II 3-Nitroaniline Tricamba
Aluminuml Aniline Carbon disulfide 1,2-Dichlorobenzene Endosulfan sulfate 4-Nitroaniline 1,2,4-Trichlorobenzene
Antimony Anthracene Carbon tetrachloride 1,3-Dichlorobenzene Endrin Nitrobenzene 1,1,1-Trichloroethane
Arsenic Benzene Chlordane 1,4-Dichlorobenzene Endrin aldehyde 2-Nitrophenol 1,1,2-Trichloroethane
Barium Benzidine 4-Chloroaniline 3,3'-Dichlorobenzidine Ethylbenzene 4-Nitrophenol Trichloroethylene
Beryllium Benzo(a)anthracene Chlorobenzene 1,1-Dichloroethane Fluoranthene N-Nitrosodimethylamine Trichlorofluoromethane
Cadmium Benzo(b)fluoranthene Chlorodibromomethane 1,2-Dichloroethane Fluorene N-Nitrosodiphenylamine 2,4,5-Trichlorophenol
Chromium Benzo(k)fluoranthene Chloroethane 1,1-Dichloroethylene Heptachlor N-Nitrosodi-N-propylamine 2,4,6-Trichlorophenol
Copper Benzoic acid 2-Chloroethyl vinyl ether trans-1,2-Dichloroethylene Heptachlor epoxide A & B Aroclor 1016 Vinyl acetate
Iron Benzo(g,h,i)perylene Chloroform 2,4-Dichlorophenol Hexachlorobenzene Aroclor 1221 Vinyl chloride
Lead Benzo(a)pyrene Chloromethane Dichloroprop Hexachlorobutadiene Aroclor 1232 Total Xylenes
Magnesium Benzyl alcohol 4-Chloro-3-methylphenol 1,2-Dichloropropane Hexachlorocyclopentadiene Aroclor 1242
Manganese Benzyl butyl phthalate 2-Chloronaphthalene cis-1,3-Dichloropropene Hexachloroethane Aroclor 1248
Mercury alpha-BHC 2-Chlorophenol trans-1,3-Dichloropropene 2-Hexanone Aroclor 1254
Molybdenum beta-BHC 4-Chlorophenyl phenyl ether Dieldrin Indeno(1,2,3-cd)pyrene Aroclor 1260
Nickel delta-BHC Chrysene Diethyl phthalate Isophorone Pentachlorophenol
Selenium gamma-BHC (Lindane) Coprostanol Dimethyl phthalate MCPA Phenanthrene
Silver Bis(2-chloroethoxy)methane 2,4-D 2,4-Dimethylphenol MCPP Phenol
Thallium Bis(2-chloroethyl)ether Dalapon 4,6-Dinitro-o-cresol Methoxychlor Pyrene
Tin Bis(2-chloroisopropyl)ether 2,4-DB 2,4-Dinitrophenol 4-Methyl-2-pentanone Styrene
Zinc Bis(2-ethylhexyl)phthalate 4,4'-DDD 2,4-Dinitrotoluene Methylene chloride 2,4,5-T
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2.4 Analytical Methods Technical names for parameters and corresponding analytical methods used over the course of the sediment monitoring program to date are summarized in Appendix B.
2.4.1 Grain Size Distribution Grain size distribution results were generated by subcontract laboratories, Am Test Inc. and Rosa Analytical. Two methods were used for grain size determination, PSEP p and ASTM D422. The methods of analysis are considered to be comparable across labs and analytical methods. Grain size categories (gravel, sand, silt, clay) were defined as follows:
• Gravel: (phi size) < 0
• Sand: 0 ≤ (phi size) < 5
• Silt: 5 ≤ (phi size) < 9
• Clay (phi size) ≥ 9.
Note that where grain size data were available for both a “Sample” and “Field Replicate,” these data were averaged across the sample and field replicate to produce a single value representing the grain size category for that sampling location and date.
2.4.2 Metals Mercury data were generated by Cold Vapor Atomic Absorption (CVAA). For all other metals, most data were generated by ICP analysis. For some of the older metals data, an analytical method was not specified. These data were analyzed by either ICP, graphite furnace atomic absorption (GFAA), or both. All data generated by ICP should be comparable, since sample preparation and analysis has been very consistent since the early 1990s.
2.4.3 Organic Compounds Base/neutral/acid-extractable organic compounds (BNAs) were analyzed by EPA Method SW-846 8270. Volatile organic chemicals (VOCs) were analyzed by EPA Method SW-846 8260. Chlorinated pesticides and Polychlorinated Biphenyls (PCBs) were analyzed by EPA Method SW-846 8080. All analyses were performed by a method similar to the procedure currently in use, except that older instruments used for analysis of the historical samples may not have been able to meet the current MDLs. Herbicides were analyzed by STL Seattle, formerly Sound Analytical, using GC/MS according to EPA Method 8151A modified to provide improved sensitivity and accuracy compared to the standard EPA method used for these parameters.
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2.5 Freshwater Sediment Quality Guidelines Sediment chemistry data were compared to two sets of freshwater sediment quality guidelines (FSQGs) to provide context for data interpretation. Smith et al (1996) developed guidelines based on the threshold effects level (TEL) values and the probable effects level (PEL). The TEL is intended to estimate the chemical concentration below which adverse biological effects are rarely expected to occur. The PEL is intended to estimate the chemical concentration above which adverse biological effects are frequently expected to occur (Smith et. al 1996). Guidelines have been derived by Smith et al. (1996) for 23 substances, including eight trace metals, six individual polycyclic aromatic hydrocarbons (PAHs), eight pesticides, and total PCBs (Table 3).
Avocet (2003) developed Floating Percentile guidelines resulting in Sediment Quality Standards (SQS) and Cleanup Screening Levels (CSL). The SQS is intended to estimate the chemical concentration below which adverse effects are not observed. The CSL is intended to estimate the chemical concentration below which only minor adverse effects would occur and above which more significant adverse effects are expected. Multiple Floating Percentile FSQGs were developed based on variable definitions of a biological “hit” for bioassay test results. The bioassay data used included 10-day mortality for Hyalella azteca and Chironomus tentans, 10-day growth for Chironomus tentans and Microtox. The SQS defines a biological hit when the difference between the mortality test and control is greater than 10 percent, when the growth test/control ratio is less than 0.8 and when the decrease in Microtox luminescence test/control ratio is less than 0.85. The CSL defines a biological hit when the test results for the same four bioassays are greater than 25 percent, less than 0.7, and less than 0.75, respectively. Guidelines have been derived by Avocet (2003) for 31 substances included in this report, including ten trace metals, 15 individual polycyclic aromatic hydrocarbons (PAHs), one semi-volatile organic, four phthalates, and total PCBs (Table 3).
As part of the FSQG development process, Avocet and SAIC (2002) assessed performance of multiple existing FSQG sets using the regional sediment database SEDQUAL. Of the eight different FSQG sets tested, the Apparent Effects Thresholds / Probable Apparent Effects Thresholds (AET/PAETs) (Ecology 1997) and the PELs were concluded to have generally lower error rates and the best balance between sensitivity and efficiency. Because the Floating Percentile values are designed to replace the AETs currently recommended for use in Washington by WDOE, the Floating Percentile FSQGs and the TELs/PELs were selected to evaluate sediment quality in this report. Other FSQGs have been, or are currently being developed, and are reviewed elsewhere (e.g., Ingersoll et al. 1996, MacDonald et al. 2000, Moshenberg 2004), but were not selected for use in this assessment.
To provide some perspective for compounds for which FSQGs were not available, these data were compared with sediment concentrations in regional urban lakes (Lakes Union, Washington and Sammamish), Chester Morse Lake and upland regional Puget Sound soil levels. The regional urban lakes are repositories for sediment load entering from the streams represented in this report in addition to other sources of sediment within the lakes. Chester Morse Lake is a lake in the upper Cedar River watershed created by a dam and sediment fluxes are most likely to resemble stream sediments than lake sediments. Chester Morse Lake and associated watershed are protected as the City of Seattle’s drinking water source, and therefore would provide an assessment of a relatively uncontaminated condition.
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Table 3. Freshwater Sediment Quality Guidelines for parameters evaluated in this study (Smith et al. 1996 and Avocet 2003).
Parameter
Probable Effects Level
(PEL)1
Threshold Effects Level
(TEL)1
Cleanup Screening
Level (CSL)2
Sediment Quality
Standard (SQS)2
Units (Dry Wt.)
Antimony N/A N/A 0.6 0.4 mg/kg
Arsenic 17 5.9 51 20 mg/kg
Cadmium 3.53 0.596 1.0 0.6 mg/kg
Chromium 90 37.3 100 95 mg/kg
Copper 196.6 35.7 830 80 mg/kg
Lead 91.3 35 430 335 mg/kg
Mercury 0.486 0.174 0.75 0.50 mg/kg
Nickel 35.9 18 70 60 mg/kg
Silver N/A N/A 2.5 2.0 mg/kg
Zinc 314.8 123.1 160 140 mg/kg
2-Methylnaphthalene N/A N/A 560 470 μg/kg
Acenaphthene N/A N/A 1320 1060 μg/kg
Acenaphthylene N/A N/A 640 470 μg/kg
Anthracene N/A N/A 1580 1200 μg/kg
Benz(a)anthracene 384.7 31.7 5800 4260 μg/kg
Benzo(a)pyrene 782 31.9 4810 3300 μg/kg
Benzo(b,k)fluoranthenes N/A N/A 14000 11000 μg/kg
Benzo(g,h,i)perylene N/A N/A 5200 4020 μg/kg
gamma-BHC (lindane) 1.38 0.94 N/A N/A μg/kg
Bis(2-ethylhexyl)phthalate N/A N/A 320 230 μg/kg
Chlordane 8.9 4.5 N/A N/A μg/kg
Chrysene 861.7 57.1 6400 5940 μg/kg
p,p’-DDD 8.51 3.54 N/A N/A μg/kg
p,p’-DDE 6.75 1.42 N/A N/A μg/kg
Dibenz(a,h)anthracene N/A N/A 840 800 μg/kg
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Parameter
Probable Effects Level
(PEL)1
Threshold Effects Level
(TEL)1
Cleanup Screening
Level (CSL)2
Sediment Quality
Standard (SQS)2
Units (Dry Wt.)
Dibenzofuran N/A N/A 440 400 μg/kg
Dieldrin 6.67 2.85 N/A N/A μg/kg
Dimethyl phthalate N/A N/A 440 46 μg/kg
Di-n-octyl phthalate N/A N/A 45 26 μg/kg
Endrin 62.4 2.67 N/A N/A μg/kg
Fluoranthene 2354.9 111.3 15000 11000 μg/kg
Fluorene N/A N/A 3000 1000 μg/kg
Heptachlor epoxide 2.74 0.6 N/A N/A μg/kg
Indeno(1,2,3-cd)pyrene N/A N/A 5300 4120 μg/kg
Naphthalene N/A N/A 1310 500 μg/kg
Phenanthrene 514.9 41.9 7600 6100 μg/kg
Pyrene 875 53 16000 8800 μg/kg
1Smith et al. (1996) 2 Avocet (2003) N/A – Not applicable
2.6 Statistical Analyses A number of statistical analyses were conducted to identify potential correlations, trends and differences among sites. For the purposes of this report, where a chemical parameter was not detected (i.e., “<MDL” values) a proxy (“adjusted”) value of one-half of the MDL was substituted and used in all subsequent statistical analyses. Where the results for a grain size phi-size range were reported as either (a) a zero percent value, or (b) a null value, the result was reported as zero. The following provides an overview of the statistical analyses used in this assessment.
2.6.1 Correlation Analysis Correlation analysis was conducted on metal and organic results within each sampling site. Data from all years were combined in order to produce a sample size large enough to conduct the statistical analysis. Analytical results were tested for normal distributions before correlation analysis was conducted. If non-normal distributions were present, non-parametric statistical methods for testing relationships between parameters were used, i.e., Spearman Rank
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Correlations. The null hypothesis was that there is no relationship between any two parameters. This relationship was tested with a p<0.05.
2.6.2 Trend Analysis Five metals (chromium, copper, lead, nickel and zinc) were tested for trends over time at the 27 sampling sites. The statistical method used for identifying trends was the theta or difference equation model. The difference equation model is a dynamic process that accounts for a trend by using the entire set of observations and is the preferred method of identifying a trend (McCleary and Hay, 1980). The difference equation is:
Ŷt = Yt-1 + theta0
Theta0 is the trend parameter. It is simply the mean of the differenced set. The differenced set is defined as t2 - t1, t3 - t2, etc (t equals time). The mean of that set is tested with a one sample t-test to determine if it is statistically different from zero. If it is, then there is a trend. The sign of the mean tells the direction of the trend. The trends analysis was conducted at a p<0.05l.
2.6.3 Between-site Differences Between-site differences were evaluated for three metals associated with urban runoff, copper, lead, and zinc, using the Least Significant Difference (LSD) Post-hoc Test for Analysis of Variance (ANOVA). This test evaluated pairs of sites with respect to each parameter, i.e., compared each site with every other site. The LSD tests the statistical significance of the differences between each pair of sites at a significance level p<0.05. Sampling sites with either higher or lower concentrations than at least 20 other locations were considered substantially different from other sites.
2.6.4 Quality Assurance/Quality Control A formal QA/QC review was not conducted on the dataset used in this report. The KCEL implemented internal QA/QC procedures and all protocols were followed over the course of the sediment program. The KCEL protocols were considered adequate for this analysis. Data were used in accordance with the KCEL data qualifiers.
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3.0. RESULTS Summary statistics of grain size distribution are presented in Appendix C. Summary statistics for all other parameters, calculated across all sampling sites combined (i.e., aggregated by chemical), along with the range of dates sampled by chemical, are presented in Appendix D-1. Minimum and maximum MDLs are also presented for all parameters. For chemical parameters where replicate data were available, results and statistical summaries were calculated by selecting the maximum value from among the field replicates. Site-specific results for chemical parameters that exceeded their PEL or CSL are also presented graphically in Appendix D-2. The results of the correlation analyses are presented in Appendix E.
Of the 166 parameters evaluated, 32 were detected at least once, while the remaining 134 were never detected above analytical detection limits in any sample. Of the 32 parameters detected at least once, 17 were metals and 15 were organic compounds. Frequency of detection (FOD) ranged from less than 1% for selenium up to 100% for aluminum, barium, chromium, copper, iron, magnesium, manganese, nickel and zinc. Of the 134 parameters that were never detected, three were metals and 131 were organic compounds.
3.1 Grain Size Distribution Average grain size distribution data by location are presented in Figure 2 and summary statistics in Appendix C. Sediment at all sampling locations was dominated by sand (~54–80%), with high variability across sites with respect to gravel (~3–38%), silt (~1–25%) and clay (<1–7%) fractions. Percent coarse (sum of gravel + sand) ranged from ~69–98%; percent fines (sum of silt + clay) ranged from ~2–31%, with the predominant fraction being silt. Grain size information is also presented graphically in Appendix C for individual samples by site and sample date for gravel, sand, silt, and clay.
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Average Grain Size Distribution by Site
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Bear C
reek (
0484
)
Big Soo
s Cree
k (A32
0)
Coal C
reek E
ast (0
442)
Crisp C
reek (
0321
)
Ebrigh
t Cree
k (A68
5)
Eden C
reek (
A690)
Fairwea
ther B
ay Trib
(049
8)
Forbes
Cree
k (04
56)
Idylwoo
d Cree
k (A62
0)
Issaq
uah C
reek (
0631
)
Juan
ita C
reek (
0446
)
Lewis
Creek (
A617)
Little
Bea
r Cree
k (04
78)
Lyon
Cree
k (04
30)
May C
reek (
0440
)
McAlee
r Cree
k (04
32)
Mercer
Slough
(044
4)
Mill Cree
k (A31
5)
Newau
kum C
reek (
0322
)
North C
reek (
0474
)
Pine La
ke C
reek (
A680)
Pipers
Creek (
0210
)
Spring
brook
Cree
k (03
17)
Swamp C
reek (
0470
)
Thornt
on C
reek (
0434
)
Tibbett
s Cree
k (06
30)
Yarrow
Bay Trib
(049
9)
Gra
in S
ize
Dis
trib
utio
n (%
)
ClaySiltSandGravel
Figure 2. Average grain size distribution (gravel, sand, silt, clay) by site
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3.2 Metals Summary statistics for metal data are presented in Appendix D-1. Tables 4 and 5 compare maximum detected metal concentrations (across all sampling locations) against FSQGs, showing screening ratios, number of samples exceeding guidelines, and frequency of detection (FOD) for samples exceeding guidelines. Screening ratios (SR) represent the ratio of the maximum environmental concentration to the FSQG and provide the magnitude of the exceedance. Of the 20 metals analyzed, 17 were detected at least once and 3 were never detected. However, the sampling frequency for tin and antimony were limited, 27 samples and 1 sample, respectively, compared to at least 96 samples for the other metals.
Sediment quality guidelines were not available for eight of the 17 metals detected at least once, (aluminum, barium, beryllium, iron, magnesium, manganese, selenium, and thallium). As previously indicated, to help provide additional context for interpreting these data, metal concentrations were compared with regional urban lakes (Moshenberg 2004), Chester Morse Lake sediment data (Yake et al. 1986) and to Puget Sound regional upland soils (Ames and Prych 1995) (Table 6). Of the eight metals with no FSQGs detected at least once, concentrations of beryllium, selenium, and thallium were above those detected in regional area urban lakes, iron exceeded levels found in Chester Morse Lake sediments, and four metals exceeded levels observed in Puget Sound Upland soils (manganese, selenium, and thallium). For the two metals that were never detected and had no FSQGs, MDLs were also compared with the regional data described above.
To show the relative degree of metal concentrations across the study area, maximum concentrations of metal parameters detected at least once were compared to FSQGs at all sampling sites (Table 7).
Maximum concentrations of arsenic, lead, nickel and zinc exceeded their respective PEL values. The PEL is intended to estimate the chemical concentration above which adverse biological effects are frequently expected to occur. Screening rations based on PELs ranged from 1.04 for zinc to 2.35 for arsenic. The frequency with which these four metals exceeded their PELs was relatively low, ranging from 0.3% for zinc to 9.9% for nickel. Maximum concentrations of arsenic and lead exceeded their PELs at four sites, nickel exceeded its PEL at 11 sites, and zinc exceeded its PEL at one site.
All eight metals with TEL values (i.e., arsenic, cadmium, chromium, copper, lead, mercury, nickel and zinc) exceeded their respective TEL at one or more sampling locations. The TEL is intended to estimate the chemical concentration below which adverse biological effects are rarely expected to occur. Screening ratios based on TELs ranged from 1.68 for mercury to 6.78 for arsenic. The frequency with which these eight metals exceeded their TELs ranged from 1.0% for mercury to 77.9% for nickel.
Cadmium and zinc exceeded their respective CSL at one or more sampling locations. The CSL is intended to estimate the chemical concentration below which only minor adverse effects would occur and above which more significant adverse effect are expected. Screening ratios based on CSLs were 2.04 for cadmium and 2.08 for zinc. The frequency with which these two
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metals exceeded their CSLs was 1.9% for cadmium and 6.1% for zinc. Maximum concentrations of cadmium exceeded its CSL at two sites and zinc exceeded its CSL at eight sites.
Maximum concentrations of arsenic, cadmium, nickel and zinc exceeded their respective SQS values. The SQS is intended to estimate the chemical concentration below which adverse effects are not observed. Screening ratios based on SQSs ranged from 1.07 for nickel to 4.67 for cadmium. The frequency with which these four metals exceeded their SQSs was relatively low, ranging from 0.53% for nickel to 8.8% for zinc.
Copper, lead and zinc are commonly associated with urban runoff. Statistical tests to determine the between-site differences for these three metals revealed that four sites had statistically higher concentrations of at least one of those three metals than the remaining sites: Fairweather Bay Trib (copper, lead, zinc), Forbes Creek (lead, zinc), Mill Creek (lead), and Thornton Creek (copper, lead, zinc). At each of these sites, the maximum concentrations of lead exceeded the PEL. At the three sites where zinc concentrations were statistically higher, the maximum concentrations exceeded the CSL. Copper concentrations never exceeded the PEL or CSL.
Forbes Creek exhibited the greatest amount of metals contamination. This site had the highest concentrations for four metals parameters and a total of five parameters exceeded either a PEL or CSL. Fairweather Bay Trib, McAleer Creek, and Thornton Creek each had three parameters that exceeded a PEL or CSL.
Correlation analyses were conducted on all detected metals (Appendix E). Detected metals concentrations were significantly positively correlated with percent fines and significantly negatively correlated with percent coarse (p<0.05). Antimony could not be correlated with any other metal due to low sampling and detection frequency. Almost all metals were positively correlated with each other; approximately 3% of the correlations were not significant. Metals data were also fine-normalized and tested for significant correlations. However, due to the high variability in the fines fraction, the data were more difficult to interpret after normalization and, therefore, the analysis is not presented here.
Figures presenting metal concentrations in individual samples over time by sampling site for metals where maximum detected concentrations exceeded the PEL or CSL are presented in Appendix C-2, including comparison of sediment concentrations with FSQGs. Trend analysis was conducted on chromium, copper, lead, nickel, and zinc. The trend analysis indicated that there were no statistically significant trends for these metals at any location.
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Table 4. Summary of sediment metal data across sampling locations, with comparison of maximum detected concentrations to PEL and TEL FSQGs. All units mg/kg dry wt.
Parameter N
Number of Detected Values
FOD (%)
Max. Detected
Value
PEL
TEL
Screening Ratio (PEL)
Screening Ratio (TEL)
Number of Samples
>PEL
Number of Samples > TEL
FOD > PEL(%)
FOD > TEL (%)
Aluminum 96 96 100.0 24,000 N/A N/A N/A N/A N/A N/A N/A N/A
Arsenic 122 36 29.5 40 17 5.9 2.35 6.78 5 40 4.1 32.8
Barium 100 100 100.0 193 N/A N/A N/A N/A N/A N/A N/A N/A
Beryllium 122 107 87.7 0.66 N/A N/A N/A N/A N/A N/A N/A N/A
Cadmium 375 78 20.8 2.8 3.53 0.596 0.79 4.70 0 26 0.0 6.9
Chromium 375 375 100.0 65 90 37.3 0.72 1.74 0 41 0.0 10.9
Copper 375 375 100.0 72 196.6 35.7 0.37 2.02 0 19 0.0 5.1
Iron 136 136 100.0 36,860 N/A N/A N/A N/A N/A N/A N/A N/A
Lead 375 330 88.0 194 91.3 35 2.13 5.56 10 49 2.7 13.1
Magnesium 155 155 100.0 10,036 N/A N/A N/A N/A N/A N/A N/A N/A
Manganese 96 96 100.0 2,686 N/A N/A N/A N/A N/A N/A N/A N/A
Mercury 314 123 39.2 0.29 0.486 0.174 0.60 1.68 0 3 0.0 1.0
Nickel 375 375 100.0 64 35.9 18 1.78 3.56 37 292 9.9 77.9
Selenium 107 1 0.9 5.3 N/A N/A N/A N/A N/A N/A N/A N/A
Silver 176 24 13.6 1.5 N/A N/A N/A N/A N/A N/A N/A N/A
Thallium 122 2 1.6 18 N/A N/A N/A N/A N/A N/A N/A N/A
Zinc 375 375 100.0 327 314.8 123.1 1.04 2.65 1 46 0.3 12.3
Antimony 1 0 0.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A
Molybdenum 122 0 0.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A
Tin 27 0 0.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A
Shading indicates a parameter that exceeded its PEL. N/A – FSQG not available
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Table 5. Summary of sediment metal data across sampling locations, with comparison of maximum detected concentrations to CSL and SQS FSQGs. All units mg/kg dry wt.
Parameter N
Number of Detected Values
FOD (%)
Max. Detected
Value CSL
SQS
Screening Ratio (CSL)
Screening Ratio (SQS)
Number of Samples
>CSL
Number of Samples
>SQS
FOD > CSL (%)
FOD > SQS (%)
Aluminum 96 96 100.0 24,000 N/A N/A N/A N/A N/A N/A N/A N/A
Arsenic 122 36 29.5 40 51 20 0.78 2.0 0 4 0 3.3
Barium 100 100 100.0 193 N/A N/A N/A N/A N/A N/A N/A N/A
Beryllium 122 107 87.7 0.66 N/A N/A N/A N/A N/A N/A N/A N/A
Cadmium 375 78 20.8 2.8 1.0 0.6 2.80 4.67 7 24 1.9 6.4
Chromium 375 375 100.0 65 100 95 0.65 0.68 0 0 0 0
Copper 375 375 100.0 72 830 80 0.09 0.9 0 0 0 0
Iron 136 136 100.0 36,860 N/A N/A N/A N/A N/A N/A N/A N/A
Lead 375 330 88.0 194 430 335 0.45 0.58 0 0 0 0
Magnesium 155 155 100.0 10,036 N/A N/A N/A N/A N/A N/A N/A N/A
Manganese 96 96 100.0 2,686 N/A N/A N/A N/A N/A N/A N/A N/A
Mercury 314 123 39.2 0.29 0.75 0.5 0.39 0.59 0 0 0 0
Nickel 375 375 100.0 64 70 60 0.91 1.07 0 2 0 0.53
Selenium 107 1 0.9 5.3 N/A N/A N/A N/A N/A N/A N/A N/A
Silver 176 24 13.6 1.5 2.5 2 0.62 0.77 0 1 0 0.57
Thallium 122 2 1.6 18 N/A N/A N/A N/A N/A N/A N/A N/A
Zinc 375 375 100.0 327 160 140 2.04 2.33 23 33 6.1 8.8
Antimony 1 0 0.0 N/A 0.6 0.4 N/A N/A N/A N/A N/A N/A
Molybdenum 122 0 0.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A
Tin 27 0 0.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A
Shading indicates a parameter that exceeded its CSL. N/A – FSQG not available
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Table 6. Comparison of sediment metals data with no FSQGs, regional lake sediment quality data and regional upland soils
Stream Sediments
Lakes Washington, Sammamish & Union Sediment1
Chester Morse Lake Sediment2
Puget Sound Upland Soils3
Metal parameters analyzed
Concentration (mg/kg dry wt)4 N FOD
(%) Concentration (mg/kg dry wt) N FOD
(%)
Concentration (mg/kg dry
wt)
Concentration (mg/kg)
Detected at least once
Aluminum 4,788 – 24,000 96 100 NM NM NM NM 70,000 – 110,000
Barium 17.4 – 193 100 100 NM NM NM NM 300 – 570
Beryllium 0.029 – 0.66 122 88 0.071 – 0.569 84 100 NM <1 – 2
Iron 8,303 – 36,860 136 100 NM NM NM 32,000 30,000 – 52,000
Magnesium 1,878 – 10,036 155 100 NM NM NM NM 6,000 – 35,000
Manganese 118 – 2,686 96 100 95.5 – 4,300 84 100 NM 740 – 1,400
Selenium 1.4 – 28.6 107 1 0.58 – 1.3 84 13 NM 0.1 – 0.5
Thallium 5.4 – 117 122 2 0.081 – 0.2 84 23 NM 5 – 7
Never detected
Molybdenum 0.54 – 11.7 122 0 NM NM NM NM <2 - <3
Tin 1.97 – 6.78 27 0 NM NM NM NM <5
Shading indicates parameters without freshwater sediment quality guidelines. N – Number of samples analyzed FOD – Frequency of Detection PEL – Probable Effects Level TEL – Threshold Effects Level N/A – Not available NM – Not measured FSQG – Freshwater sediment quality guideline
1 Moshenberg (2004), based on King County data 2 Yake et al. (1986) 3 Ames and Prych (1995); Region F, N=4; for purposes of this table, field duplicate results are included in range. 4 Metal concentrations calculated using MDL/2 as proxy for non-detected values.
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Table 7. Maximum concentrations of metals detected at least once in sediments by sampling site, with comparison to FSQG. All units as mg/kg dry wt.
Alu
min
um, T
otal
Ars
enic
, Tot
al
Bar
ium
, Tot
al
Ber
ylliu
m, T
otal
Cad
miu
m, T
otal
Chr
omiu
m, T
otal
Cop
per,
Tota
l
Iron,
Tot
al
Lead
, Tot
al
Mag
nesi
um, T
otal
Man
gane
se, T
otal
Mer
cury
, Tot
al
Nic
kel,
Tota
l
Sel
eniu
m, T
otal
Silv
er, T
otal
Thal
lium
, Tot
al
Zinc
, Tot
al
PEL N/A 17 N/A N/A 3.53 90 196.6 N/A 91.3 N/A N/A 0.486 35.9 N/A N/A N/A 314.8 TEL N/A 5.9 N/A N/A 0.596 37.3 35.7 N/A 35 N/A N/A 0.174 18 N/A N/A N/A 123.1 CSL N/A 51 N/A N/A 1.0 100 830 N/A 430 N/A N/A 0.75 70 N/A 2.5 N/A 160 SQS N/A 20 N/A N/A 0.6 95 80 N/A 335 N/A N/A 0.5 60 N/A 2.0 N/A 140
No.
par
amet
ers
with
max
imum
co
ncen
tratio
n
No.
par
amet
ers
>
PE
L or
CS
L
Bear Creek 11250 9.8 44 0.38 0.28 33 11 18873 7.0 5000 476 ND 25 ND ND ND 50 0 0 Big Soos Creek 13698 15 77 0.33 0.36 44 24 18556 13 6630 354 0.11 41 ND 0.67 ND 72 0 1 Coal Creek East 18036 12 142 0.66 0.34 27 37 27255 20 5291 685 0.07 34 ND 0.54 ND 117 0 0 Crisp Creek 20941 15 137 0.50 ND 34 27 20687 12 6957 326 0.10 28 ND ND ND 109 0 0 Ebright Creek 9662 ND 37 0.16 ND 28 10 12403 3.8 4393 263 ND 27 ND ND ND 31 0 0 Eden Creek 19378 3.9 100 0.45 ND 21 27 22485 5.7 6361 583 0.03 22 ND ND 18 128 1 0
Fairweather Bay Trib 12736 13 106 0.40 0.49 64 72 26734 192 5192 1110 0.06 64 5.3 0.69 ND 308 3 3
Forbes Creek 24000 40 154 0.35 1.19 58 61 23750 188 5933 748 0.27 50 ND 1.5 ND 327 4 5 Idylwood Creek 14477 ND 41 0.23 0.22 63 15 19343 6.6 10037 409 0.03 37 ND ND ND 47 1 1 Issaquah Creek 16160 13 86 0.54 0.15 34 30 18652 9.5 5763 378 0.07 31 ND 0.61 ND 58 0 0
Juanita Creek 13056 ND 110 0.36 0.97 50 28 18333 40 6106 471 0.12 48 ND 0.64 ND 183 0 2
Lewis Creek 10786 8.6 100 0.48 ND 19 46 17085 10 4350 356 0.04 16 ND 0.62 ND 77 0 0 Little Bear Creek 9390 7.5 34 0.24 0.49 56 9.5 16456 6.2 5122 329 ND 38 ND 0.52 ND 62 0 1
Lyon Creek 10278 13 60 0.28 0.86 39 36 14978 85 5178 528 0.08 39 ND 0.45 ND 249 0 2
May Creek 9041 11 122 0.27 0.08 53 32 20111 63 8255 280 0.13 48 ND 0.55 ND 139 0 1
McAleer Creek 21434 31 193 0.50 0.14 61 50 36860 53 7829 2686 0.10 62 ND 0.68 ND 204 3 3
Mercer Slough 16583 26 125 0.27 0.45 59 21 16691 33 4763 809 0.08 31 ND 0.38 ND 152 0 1
Mill Creek 15667 18 109 0.53 0.64 24 32 26726 194 4333 1040 0.29 23 ND 1.03 ND 149 2 2 Newaukum Creek 16058 ND 95 0.44 0.05 24 24 18504 13 5052 489 0.04 20 ND 0.55 ND 75 0 0 North Creek 12816 11 57 0.27 0.67 38 12 21672 14 5786 607 0.04 32 ND 0.57 12 92 0 0 Pine Lake Creek 12418 6 58 0.25 0.37 37 18 19585 9.2 5994 986 ND 35 ND ND ND 48 0 0
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Alu
min
um, T
otal
Ars
enic
, Tot
al
Bar
ium
, Tot
al
Ber
ylliu
m, T
otal
Cad
miu
m, T
otal
Chr
omiu
m, T
otal
Cop
per,
Tota
l
Iron,
Tot
al
Lead
, Tot
al
Mag
nesi
um, T
otal
Man
gane
se, T
otal
Mer
cury
, Tot
al
Nic
kel,
Tota
l
Sel
eniu
m, T
otal
Silv
er, T
otal
Thal
lium
, Tot
al
Zinc
, Tot
al
PEL N/A 17 N/A N/A 3.53 90 196.6 N/A 91.3 N/A N/A 0.486 35.9 N/A N/A N/A 314.8 TEL N/A 5.9 N/A N/A 0.596 37.3 35.7 N/A 35 N/A N/A 0.174 18 N/A N/A N/A 123.1 CSL N/A 51 N/A N/A 1.0 100 830 N/A 430 N/A N/A 0.75 70 N/A 2.5 N/A 160 SQS N/A 20 N/A N/A 0.6 95 80 N/A 335 N/A N/A 0.5 60 N/A 2.0 N/A 140
No.
par
amet
ers
with
max
imum
co
ncen
tratio
n
No.
par
amet
ers
>
PE
L or
CS
L
Pipers Creek 8101 9 33 0.25 ND 30 8.7 12466 15 4783 266 ND 34 ND 0.41 ND 45 0 0
Springbrook Creek 7632 8 30 0.66 2.8 33 48 19625 39 3185 237 0.16 25 ND 0.92 ND 212 2 2
Swamp Creek 10476 11 98 0.24 0.29 45 20 20000 38 4694 810 0.05 31 ND 0.57 ND 125 0 0
Thornton Creek 14289 13 131 0.38 0.88 58 45 19703 108 7492 628 0.11 58 ND 1.43 ND 271 0 3
Tibbetts Creek 12991 12 124 0.58 0.38 37 28 19022 12 5165 962 0.07 30 ND 0.58 ND 67 0 0
Yarrow Bay Trib 13590 7 52 0.26 0.12 65 42 25000 51 6000 427 0.15 55 ND ND ND 175 1 2 No. sites > PEL or CSL N/A 4 N/A N/A 2 0 0 N/A 4 N/A N/A 0 11 N/A 0 N/A 8 -- --
Bold – highest detected value Shaded – indicates detected value > PEL Boxed – indicates detected value > CSL N/A – Not Available ND – Not detected
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3.3 Organic Compounds Maximum detected concentrations of the 14 organic compounds detected at least once are presented by sampling site in Table 8. Organic compounds were detected at least once at each of six sites (Eden, Idylwood, Issaquah, Lewis, Pine Lake and Tibbetts Creeks). At Eden Creek, 11 of the 14 compounds were each detected at least once. In general, concentrations of detected organic compounds were greatest in Eden Creek.
FSQGs were available for all the 14 organic compounds detected at least once. Concentrations of these 14 compounds were compared with their corresponding PELs, TELs, CSLs, and SQSs (Table 8). Only one compound, chlordane, exceeded its PEL (max. conc. = 17 µg/kg dry wt at Lewis Creek; PEL = 8.9 µg/kg dry wt). Seven chemicals exceeded their corresponding TELs (i.e., benzo(a)anthracene, benzo(a)pyrene, chlordane, chrysene, fluoranthene, phenanthrene, pyrene). Six of the seven TEL exceedances were in Eden Creek. The eighth chemical, dieldrin, was detected in Lewis Creek but did not exceed its TEL. None of the 14 chemicals exceeded its corresponding CSL. One chemical, bis(2-ethylhexyl)phthalate exceeded its SQS in Pine Lake Creek.
Correlation analysis was conducted for bis(2-ethylhexyl)phthalate and fluoranthene, the only organic compounds with sufficient detection rates (FOD>50%). Bis(2-ethylhexyl)phthalate was positively correlated (p<0.05) with the clay fraction; positively correlated (p<0.1) with the fines fraction, silt fraction, arsenic, barium, cadmium, molybdenum, selenium, silver, and thallium; and negatively correlated (p<0.1) with iron, magnesium, and the coarse fraction. Fluoranthene was positively correlated (p<0.05) with the fines fraction, clay fraction, and barium; positively correlated (p<0.1) with the sand fraction and cadmium; negatively correlated (p<0.05) with the gravel fraction and coarse fraction; and negatively correlated (p<0.1) with magnesium.
Table 8. Maximum concentrations of organic chemicals detected at least once in sediments by sampling site, with comparison to FSQG. All units as µg/kg dry wt.
FSQG Maximum Concentration
Parameter PEL TEL CSL SQS Eden Creek
Idylwood Creek
Issaquah Creek
Lewis Creek
Pine Lake Creek
Tibbetts Creek
Anthracene N/A N/A 1580 1200 37 ND ND ND ND ND
Benzo(a)anthracene 384.7 31.7 5800 4260 205 ND ND ND ND ND
Benzo(a)pyrene 782 31.9 4810 3300 115 ND ND ND ND ND
Benzo(b)fluoranthene N/A N/A 14000 11000 222 ND ND ND ND ND
Benzo(g,h,i)perylene N/A N/A 5200 4020 127 ND ND ND ND ND
Benzo(k)fluoranthene N/A N/A 14000 11000 126 ND ND ND ND ND
Bis(2-ethylhexyl)phthalate N/A N/A 320 230 ND ND ND ND 293 ND
Chlordane (technical) 8.9 4.5 N/A N/A ND ND ND 17 ND ND
Chrysene 861.7 57.1 6400 5940 249 ND ND ND ND ND
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FSQG Maximum Concentration
Parameter PEL TEL CSL SQS Eden Creek
Idylwood Creek
Issaquah Creek
Lewis Creek
Pine Lake Creek
Tibbetts Creek
Dieldrin 6.67 2.85 N/A N/A ND ND ND 2 ND ND
Fluoranthene 2354.9 111.3 15000 11000 666 ND 25 ND ND ND
Indeno(1,2,3-cd)pyrene N/A N/A 5300 4120 123 ND ND ND ND ND
Phenanthrene 514.9 41.9 7600 6100 312 ND ND ND ND ND
Pyrene 875 53 16000 8800 442 ND ND ND ND ND
PEL – Probable Effects Level TEL – Threshold Effects Level MDL – Method Detection Limit N/A – not available Bold – Highest detected concentrations Shaded – Concentration exceeds its PEL or CSL ND – not detected above MDL
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4.0. DISCUSSION AND CONCLUSIONS Grain size distribution results indicated a high variability of gravel, silt, and clay fractions from year to year. This variability may be the result of impacts of variable weather patterns (e.g., low flow conditions leading to increased deposition of fines versus storm events with high flow conditions leading to increased scouring of fines), and/or the naturally high heterogeneous distribution of sediment size classes.
Total Organic Carbon (TOC) was not analyzed. TOC data would have been useful, for example, in evaluating the tendency for certain metals and organic chemicals to adsorb to organic carbon and become sequestered in bottom sediments. Total organic carbon data are often reviewed during evaluation of potential fate and transport dynamics of selected chemicals in the presence of organic matter. Acid Volatile Sulfides (AVS) was also not analyzed. AVS may have been useful in interpretation of the metals data, e.g. with respect to bioavailability, and thus degree of potential toxicity of the metals to sediment-dwelling organisms. However, since most study streams are well oxygenated and are frequently flushed by storm events, it is unlikely that AVS has a significant effect on metal bioavailability. It is recommended that AVS be analyzed for one or two years and then its usefulness for interpreting metals data relative to the potential adverse effects to aquatic organisms should be reevaluated.
Although bioavailability information was not available for interpretation, metals concentrations rarely exceeded the FSQG. For the five parameters that did exceed guidelines (arsenic, cadmium, lead, nickel, and zinc), the degree to which the maximum detected concentrations exceeded their respective PELs was relatively small (i.e., PEL Screening Ratios ranged from 1.04 for zinc to 2.35 for arsenic). However, since PELs indicate a chemical concentration above which, adverse effects to aquatic organisms is expected to occur, these should not be taken lightly. It is recommended that sampling locations with concentrations of metals exceeding PEL or CSL values should be resampled to verify the level of contamination. Additionally, toxicity tests could provide valuable information for assessing the level of risk for adverse impacts to aquatic organisms.
A broad list of organic compounds were analyzed only once (in 1995), and at only seven of the 27 sampling sites, and a short list of herbicides was re-sampled at three of the 27 sampling sites in 1998. Because data are not available across multiple sampling events it is not possible to evaluate trends in concentrations over time for these compounds. Additionally, because of the limited amount of data (e.g., relative to metals and grain size), the ability to make comparisons across sites and to evaluate correlations between organic compounds and other parameters is likewise limited.
It is interesting to note that 12 PAHs and two chlorinated pesticides comprised the detected in the organic parameters. PAHs are ubiquitous in the Puget Sound region; and though they are difficult to detect in the water column, they do persist in sediments. The detected chlorinated pesticides, chlordane and dieldrin, also persist in sediments and are difficult to detect in the water column. Therefore, even though they have been outlawed for 30 years, they were also detected in sediments. Chlordane poses the greatest risk to aquatic life being the only detected organic compound to exceed a PEL or CSL. It is recommended that Lewis Creek be resampled to verify
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the level of contamination. Additionally, toxicity tests could provide valuable information for assessing the level of risk for adverse impacts to aquatic organisms. Concentrations of several other organic parameters fell either between TEL and PELs or SQS and CSLs, which would suggest the importance of continued monitoring of organic parameters to ensure that risk to aquatic life remains at acceptable levels.
Though the quality and quantity of data collection was limited and made analysis of historical conditions difficult, comparison of observed values to FSQG indicate that the risk of adverse effects to aquatic life from sediment chemical contamination in most streams is considered to be slight. Some streams, however, have more than one metal parameter that exceeds either a PEL or CSL and should continue to be monitored closely. Additional toxicity testing would provide certainty in interpreting the analytical results.
The statistical analyses found that the majority of detected metal parameters to be significantly correlated with each other as well as with the percent fines and percent coarse fractions. It was hoped that the statistical analysis would provide useful information for interpretation of the data, but at this time it does not. If the correlations between the concentrations of metal parameters associated with human disturbance had been stronger with iron or aluminum, the data could have been normalized to those naturally occurring metals to improve data interpretation.
Long-term trend analysis found no significant trends among any of the chemical parameters. The purpose of monitoring is typically to determine if long-term trends are discernable. Since no trends were found, one of two conclusions may be deduced; 1) chemical contamination has not changed over time, or 2) the sampling design was insufficient to capture the data necessary to discern long-term trends.
Differences between concentrations of three urban-influenced metals across sampling locations were found at four sites. This analysis produced identified streams with the greatest possible influence from urbanization, Fairweather Bay Trib, Forbes Creek, Mill Creek, and Thornton Creek. These results are not surprising given the amount of urbanization present in the watersheds of these streams. Fairweather Bay Trib runs through Bellevue, Forbes Creek runs through Kirkland, Mill Creek runs through South Everett, and Thornton Creek runs through North Seattle.
Data gaps were noted regarding inconsistencies in sample design and sampling intensity over space and time, and regarding lack of data for certain parameters helpful in interpretation of other collected data. The scope of the sampling and analysis activities varied by location and sampling event, e.g., not all locations were sampled every year; not all locations were sampled for all parameters during each sampling event; not all parameters were analyzed using the same analytical methods and MDLs consistently over the course of the monitoring program. This circumstance limits the ability to make certain comparisons regarding differences between sampling sites, trends over time, etc. Formal trend analysis could not be conducted where data were not collected at regular intervals at a given sampling site (e.g., once per year over consecutive years for the full range of years for which data were collected).
In light of these findings, several recommendations can be made:
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• AVS and TOC should be analyzed as part of the sediment monitoring program to aid in the interpretation of the results.
• More stations should be added throughout the basin to characterize upstream conditions using a stratified sampling design with specific goals in mind, i.e. long-term trend analysis, ecological risk assessment, or between-site differences. Currently sampling sites are located at the mouth of the creek. The use of a stratified sampling design will allow for a broader characterization of sediments within a particular watershed.
• The 27 sites that have been monitored should be kept in the program but should be sampled more consistently in order to facilitate trend analysis.
• The ability to interpret sediment monitoring is enhanced when conducted in conjunction with monitoring of other chemical, biological and physical characteristics throughout the watershed.
See the updated Stream Sediment Monitoring Sampling and Analysis Plan (King County 2004) for the detailed recommended changes to the freshwater sediment program.
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5.0. REFERENCES Ames, K.C. and E.A. Prych. 1995. Background concentrations of metals in soils from selected
regions in the State of Washington. U.S. Geological Survey Water-Resources Investigations Report 95-4018.
Avocet Consulting. 2003. Development of freshwater sediment quality values for use in Washington State. Phase II Report: Development and recommendations of SQVs for freshwater sediments in Washington State. Prepared for Washington Department of Ecology. Publication No. 03-09-088.
Avocet Consulting and SAIC. 2002. Development of freshwater sediment quality values for use in Washington State. Phase I Task 6 Final Report. Prepared for Washington Department of Ecology. Publication No. 02-09-050.
Dillon, T, G.R. Biddinger, and C.G. Ingersoll. 1997. Ecological Risk Assessment of Contaminated Sediments. Society of Chemistry and Environmental Toxicology Press, Pensacola FL 390 p.
Ecology. 1997. Creation and Analysis of Freshwater Sediment Quality Values in Washington State. Washington State Dept of Ecology. Publication # 97-323a.
Ingersoll, C.G., P.S. Haverland, E.L. Brunson, T.J. Canfield, F. J. Dwyer, C.E. Henke, N.E. Kemble, D.R. Mount, and R.G. Fox, 1996. Calculation and evaluation of sediment effect concentrations for the amphipod Hyalella azteca and the midge Chironomus riparius. J. Great Lakes Res. 22(3):602-623.
King County. 2004. Stream Sediment Monitoring Sampling and Analysis Plan. Prepared by Dean Wilson, Jean Power, Katherine Bourbonais, and Colin Elliott. Water and Land Resources Division. Seattle, Washington.
MacDonald, D.D., C.G. Ingersoll, and T.A. Berger. 2000. Development and evaluation of consensus-based sediment quality guidelines for freshwater ecosystems. Arch. Environ. Contam. Toxicol. 39:20-31.
McCleary, R. and R. Hay. 1980. Applied Time Series Analysis. Sage Publications.
Moshenberg, Kari. 2004. Sediment Quality Triad (SQT) Analysis of Three Urban Western Washington Lakes. Master’s thesis submitted to University of Washington.
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Smith, S. L., D.D. MacDonald, K.A. Keenleyside, C.G. Ingersoll, and L.J. Field. 1996. A preliminary evaluation of sediment quality assessment values for freshwater ecosystems. J. Great Lakes Res. 22(3):624-638.
United States Environmental Protection Agency (USEPA). 1994. Sediment Sampling. SOP #2016. November 17, 1994.
Yake, B., D. Norton, and M. Stinson. 1986. Application of the triad approach to freshwater sediment assessment: an initial investigation of sediment quality near Gas Works Park, Lake Union. Water Quality Investigations Section, Washington Department of Ecology, Olympia, WA.
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Appendix A:
Field Sampling Equipment
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Table 9. Field equipment used in sediment sampling
Sediment Sampling Equipment
Pre-cleaned PVC core tubes (2 ¾ in. x 3 ft. tubes with one end filed to tapered edges to form a penetrating edge). Tubes are cleaned in the lab with Detergent 8, soaked in a 5% acid solution, and rinsed with de-ionized water. After air drying, both ends of the tubes are covered with foil.
Set of pre-labeled sampling containers; this includes containers for metals, organic compounds, conventional, and subcontracted parameters.
Stainless steel spatula, spoons, and bowl for compositing and splitting samples.
Shoulder/elbow length nitrile gloves for sample collection.
Lab quality nitrile gloves for compositing and splitting samples.
Field sheets with a clipboard and waterproof pens.
Field clothes and safety gear, including orange traffic vest.
Gate keys for appropriate sites.
Handheld Global Positioning System (GPS) unit.
Several 5-gallon plastic carboys of laboratory reverse osmosis (RO) water for equipment cleaning.
Detergent 8 and scrub brushes.
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Appendix B:
Parameters Analyzed, Methods, and Sampling Date Ranges
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Summary of sediment quality monitoring parameters and associated analytical methods
Parameter Category
CAS Number Parameter Method Start End
Grain Size, Gen'l 00-00-0 01_Gravel_%; 02_Sand_%; 03_Silt_%; 04_Clay_% none 08/22/1988 09/04/1991
Grain Size, Gen'l 00-00-0 01_Gravel_%; 02_Sand_%; 03_Silt_%; 04_Clay_% 08/25/1993 08/24/1994
Grain Size, Gen'l 00-00-0 01_Gravel_%; 02_Sand_%; 03_Silt_%; 04_Clay_% PSEP p9 09/12/1995 09/03/1998
Grain Size, Gen'l 00-00-0 01_Gravel_%; 02_Sand_%; 03_Silt_%; 04_Clay_% ASTM D422 09/01/1998 07/31/2002
Metals 7429-90-5 Aluminum METRO 16-02-004 08/25/1993 08/28/1996
Metals 7440-36-0 Antimony METRO 16-02-004 09/13/1995 09/13/1995
Metals 7440-38-2 Arsenic METRO 16-02-004 08/25/1993 09/03/1998
Metals 7440-39-3 Barium METRO 16-02-004 08/23/1994 09/03/1998
Metals 7440-41-7 Beryllium METRO 16-02-004 08/25/1993 09/03/1998
Metals 7440-43-9; 7440-47-3; 7440-50-8; 7439-92-1; 7440-02-0; 7440-66-6
Cadmium; Chromium; Copper; Lead; Nickel; Zinc 09/29/1987 09/04/1991
Metals 7440-43-9; 7440-47-3; 7440-50-8; 7439-92-1; 7440-02-0; 7440-66-6
Cadmium; Chromium; Copper; Lead; Nickel; Zinc none 08/11/1992 08/12/1992
Metals 7440-43-9; 7440-47-3; 7440-50-8; 7439-92-1; 7440-02-0; 7440-66-6
Cadmium; Chromium; Copper; Lead; Nickel; Zinc METRO 16-02-004 08/25/1993 09/03/1998
Metals 7440-43-9; 7440-47-3; 7440-50-8; 7439-92-1; 7440-02-0; 7440-66-6
Cadmium; Chromium; Copper; Lead; Nickel; Zinc EPA3050A/6010B (60-20-004-002) 08/30/1999 07/27/2000
Metals 7440-43-9; 7440-47-3; 7440-50-8; 7439-92-1; 7440-02-0; 7440-66-6
Cadmium; Chromium; Copper; Lead; Nickel; Zinc EPA3050A/6010B (06-02-004-002) 07/25/2001 07/31/2002
Metals 7439-89-6 Iron PE 08/08/1989 09/04/1991
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Parameter Category
CAS Number Parameter Method Start End
Metals 7439-89-6 Iron METRO 16-02-004 08/23/1994 08/28/1996
Metals 7439-95-4 Magnesium PE 09/03/1991 08/12/1992
Metals 7439-95-4 Magnesium METRO 16-02-004 08/25/1993 09/03/1998
Metals 7439-96-5 Manganese METRO 16-02-004 08/25/1993 08/28/1996
Metals 7439-97-6 Mercury, Total 08/08/1989 09/04/1991
Metals 7439-97-6 Mercury none 08/11/1992 08/12/1992
Metals 7439-97-6 Mercury METRO 16-01-004 08/25/1993 09/14/1995
Metals 7439-97-6 Mercury METRO 16-01-001 08/26/1996 08/28/1996
Metals 7439-97-6 Mercury METRO 16-01-005 08/25/1997 09/03/1998
Metals 7439-97-6 Mercury EPA 245.5 (06-01-004-001) 08/30/1999 07/27/2000
Metals 7439-97-6 Mercury EPA 245.5 (06-01-004-003) 07/25/2001 07/31/2002
Metals 7439-98-7 Molybdenum METRO 16-02-004 08/25/1993 09/03/1998
Metals 7782-49-2 Selenium METRO 16-02-004 08/25/1993 09/03/1998
Metals 7440-22-4 Silver 09/06/1990 09/04/1991
Metals 7440-22-4 Silver none 08/11/1992 08/12/1992
Metals 7440-22-4 Silver METRO 16-02-004 08/25/1993 09/03/1998
Metals 7440-28-0 Thallium METRO 16-02-004 08/25/1993 09/03/1998
Metals 7440-31-5 Tin METRO 16-02-004 08/26/1996 08/28/1996
Organics 71-55-6 1,1,1-Trichloroethane SW-846 8260 09/13/1995 09/14/1995
Organics 79-34-5 1,1,2,2-Tetrachloroethane SW-846 8260 09/13/1995 09/14/1995
Organics 79-00-5 1,1,2-Trichloroethane SW-846 8260 09/13/1995 09/14/1995
Organics 75-34-3 1,1-Dichloroethane SW-846 8260 09/13/1995 09/14/1995
Organics 75-35-4 1,1-Dichloroethylene SW-846 8260 09/13/1995 09/14/1995
Organics 120-82-1 1,2,4-Trichlorobenzene SW-846 8270 09/13/1995 09/14/1995
Organics 95-50-1 1,2-Dichlorobenzene (o- ) SW-846 8270 09/13/1995 09/14/1995
Organics 107-06-2 1,2-Dichloroethane SW-846 8260 09/13/1995 09/14/1995
Organics 78-87-5 1,2-Dichloropropane SW-846 8260 09/13/1995 09/14/1995
Organics 122-66-7 1,2-Diphenylhydrazine SW-846 8270 09/13/1995 09/14/1995
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Parameter Category
CAS Number Parameter Method Start End
Organics 541-73-1 1,3-Dichlorobenzene (m- ) SW-846 8270 09/13/1995 09/14/1995
Organics 106-46-7 1,4-Dichlorobenzene (p- ) SW-846 8270 09/13/1995 09/14/1995
Organics 93-76-5 2,4,5-T (2,4,5-Trichlorophenoxyacetic acid) EPA 615 09/13/1995 09/14/1995
Organics 93-76-5 2,4,5-T (2,4,5-Trichlorophenoxyacetic acid) SW-846 8151A GC/MS MODIFIED 09/03/1998 09/03/1998
Organics 93-72-1 2,4,5-TP (Silvex) (2-[2,4,5-Trichlorophenoxy]propionic acid) EPA 615 09/13/1995 09/14/1995
Organics 93-72-1 2,4,5-TP (Silvex) (2-[2,4,5-Trichlorophenoxy]propionic acid) SW-846 8151A GC/MS MODIFIED 09/03/1998 09/03/1998
Organics 95-95-4 2,4,5-Trichlorophenol SW-846 8270 09/13/1995 09/14/1995
Organics 88-06-2 2,4,6-Trichlorophenol SW-846 8270 09/13/1995 09/14/1995
Organics 94-75-7 2,4-D (2,4-Dichlorophenoxyacetic acid) EPA 615 09/13/1995 09/14/1995
Organics 94-75-7 2,4-D (2,4-Dichlorophenoxyacetic acid) SW-846 8151A GC/MS MODIFIED 09/03/1998 09/03/1998
Organics 94-82-6 2,4-DB (4-[2,4-Dichlorophenoxy]butyric acid) EPA 615 09/13/1995 09/14/1995
Organics 94-82-6 2,4-DB (4-[2,4-Dichlorophenoxy]butyric acid) SW-846 8151A GC/MS MODIFIED 09/03/1998 09/03/1998
Organics 120-83-2 2,4-Dichlorophenol SW-846 8270 09/13/1995 09/14/1995
Organics 105-67-9 2,4-Dimethylphenol SW-846 8270 09/13/1995 09/14/1995
Organics 51-28-5 2,4-Dinitrophenol SW-846 8270 09/13/1995 09/14/1995
Organics 121-14-2 2,4-Dinitrotoluene SW-846 8270 09/13/1995 09/14/1995
Organics 606-20-2 2,6-Dinitrotoluene SW-846 8270 09/13/1995 09/14/1995
Organics 78-93-3 2-Butanone (MEK) SW-846 8260 09/13/1995 09/14/1995
Organics 110-75-8 2-Chloroethyl vinyl ether SW-846 8260 09/13/1995 09/14/1995
Organics 91-58-7 2-Chloronaphthalene SW-846 8270 09/13/1995 09/14/1995
Organics 95-57-8 2-Chlorophenol SW-846 8270 09/13/1995 09/14/1995
Organics 591-78-6 2-Hexanone (MBK; Methyl n-butyl ketone) SW-846 8260 09/13/1995 09/14/1995
Organics 91-57-6 2-Methylnaphthalene SW-846 8270 09/13/1995 09/14/1995
Organics 95-48-7 2-Methylphenol SW-846 8270 09/13/1995 09/14/1995
Organics 88-74-4 2-Nitroaniline (o- ) SW-846 8270 09/13/1995 09/14/1995
Organics 88-75-5 2-Nitrophenol SW-846 8270 09/13/1995 09/14/1995
Organics 91-94-1 3,3'-Dichlorobenzidine SW-846 8270 09/13/1995 09/14/1995
Organics 99-09-2 3-Nitroaniline (m- ) SW-846 8270 09/13/1995 09/14/1995
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Parameter Category
CAS Number Parameter Method Start End
Organics 72-54-8 4,4'-DDD SW-846 8080 09/13/1995 09/14/1995
Organics 72-55-9 4,4'-DDE SW-846 8080 09/13/1995 09/14/1995
Organics 50-29-3 4,4'-DDT SW-846 8080 09/13/1995 09/14/1995
Organics 534-52-1 4,6-Dinitro-o-cresol SW-846 8270 09/13/1995 09/14/1995
Organics 101-55-3 4-Bromophenyl phenyl ether SW-846 8270 09/13/1995 09/14/1995
Organics 59-50-7 4-Chloro-3-methylphenol SW-846 8270 09/13/1995 09/14/1995
Organics 106-47-8 4-Chloroaniline SW-846 8270 09/13/1995 09/14/1995
Organics 7005-72-3 4-Chlorophenyl phenyl ether SW-846 8270 09/13/1995 09/14/1995
Organics 108-10-1 4-Methyl-2-pentanone (MIBK) SW-846 8260 09/13/1995 09/14/1995
Organics 106-44-5 4-Methylphenol SW-846 8270 09/13/1995 09/14/1995
Organics 100-01-6 4-Nitroaniline (p- ) SW-846 8270 09/13/1995 09/14/1995
Organics 100-02-7 4-Nitrophenol SW-846 8270 09/13/1995 09/14/1995
Organics 83-32-9 Acenaphthene SW-846 8270 09/13/1995 09/14/1995
Organics 208-96-8 Acenaphthylene SW-846 8270 09/13/1995 09/14/1995
Organics 67-64-1 Acetone SW-846 8260 09/13/1995 09/14/1995
Organics 107-02-8 Acrolein SW-846 8260 09/13/1995 09/14/1995
Organics 107-13-1 Acrylonitrile SW-846 8260 09/13/1995 09/14/1995
Organics 309-00-2 Aldrin SW-846 8080 09/13/1995 09/14/1995
Organics 319-84-6 alpha-BHC SW-846 8080 09/13/1995 09/14/1995
Organics 62-53-3 Aniline SW-846 8270 09/13/1995 09/14/1995
Organics 120-12-7 Anthracene SW-846 8270 09/13/1995 09/14/1995
Organics 71-43-2 Benzene SW-846 8260 09/13/1995 09/14/1995
Organics 92-87-5 Benzidine SW-846 8270 09/13/1995 09/14/1995
Organics 56-55-3 Benzo(a)anthracene SW-846 8270 09/13/1995 09/14/1995
Organics 50-32-8 Benzo(a)pyrene SW-846 8270 09/13/1995 09/14/1995
Organics 205-99-2 Benzo(b)fluoranthene SW-846 8270 09/13/1995 09/14/1995
Organics 191-24-2 Benzo(g,h,i)perylene SW-846 8270 09/13/1995 09/14/1995
Organics 207-08-9 Benzo(k)fluoranthene SW-846 8270 09/13/1995 09/14/1995
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Parameter Category
CAS Number Parameter Method Start End
Organics 65-85-0 Benzoic acid SW-846 8270 09/13/1995 09/14/1995
Organics 100-51-6 Benzyl alcohol SW-846 8270 09/13/1995 09/14/1995
Organics 85-68-7 Benzyl butyl phthalate SW-846 8270 09/13/1995 09/14/1995
Organics 319-85-7 beta-BHC SW-846 8080 09/13/1995 09/14/1995
Organics 111-91-1 Bis(2-chloroethoxy)methane SW-846 8270 09/13/1995 09/14/1995
Organics 111-44-4 Bis(2-chloroethyl)ether SW-846 8270 09/13/1995 09/14/1995
Organics 108-60-1 Bis(2-chloroisopropyl)ether SW-846 8270 09/13/1995 09/14/1995
Organics 117-81-7 Bis(2-ethylhexyl)phthalate SW-846 8270 09/13/1995 09/14/1995
Organics 75-27-4 Bromodichloromethane SW-846 8260 09/13/1995 09/14/1995
Organics 75-25-2 Bromoform SW-846 8260 09/13/1995 09/14/1995
Organics 74-83-9 Bromomethane SW-846 8260 09/13/1995 09/14/1995
Organics 86-74-8 Carbazole SW-846 8270 09/13/1995 09/14/1995
Organics 75-15-0 Carbon disulfide SW-846 8260 09/13/1995 09/14/1995
Organics 56-23-5 Carbon tetrachloride SW-846 8260 09/13/1995 09/14/1995
Organics 57-74-9 Chlordane (Technical; mix of alpha- and gamma- isomers) SW-846 8080 09/13/1995 09/14/1995
Organics 108-90-7 Chlorobenzene SW-846 8260 09/13/1995 09/14/1995
Organics 124-48-1 Chlorodibromomethane SW-846 8260 09/13/1995 09/14/1995
Organics 75-00-3 Chloroethane (Ethyl chloride) SW-846 8260 09/13/1995 09/14/1995
Organics 67-66-3 Chloroform (Trichloromethane) SW-846 8260 09/13/1995 09/14/1995
Organics 74-87-3 Chloromethane (Methyl chloride) SW-846 8260 09/13/1995 09/14/1995
Organics 218-01-9 Chrysene SW-846 8270 09/13/1995 09/14/1995
Organics 10061-01-5 cis-1,3-Dichloropropene SW-846 8260 09/13/1995 09/14/1995
Organics 360-68-9 Coprostanol (5-beta-Cholestan-3-one) SW-846 8270 09/13/1995 09/14/1995
Organics 75-99-0 Dalapon EPA 615 09/13/1995 09/14/1995
Organics 75-99-0 Dalapon SW-846 8151A GC/MS MODIFIED 09/03/1998 09/03/1998
Organics 319-86-8 delta-BHC SW-846 8080 09/13/1995 09/14/1995
Organics 53-70-3 Dibenzo(a,h)anthracene SW-846 8270 09/13/1995 09/14/1995
Organics 132-64-9 Dibenzofuran SW-846 8270 09/13/1995 09/14/1995
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Parameter Category
CAS Number Parameter Method Start End
Organics 1918-00-9 Dicamba EPA 615 09/13/1995 09/14/1995
Organics 1918-00-9 Dicamba SW-846 8151A GC/MS MODIFIED 09/03/1998 09/03/1998
Organics 120-36-5 Dichloroprop EPA 615 09/13/1995 09/14/1995
Organics 120-36-5 Dichloroprop SW-846 8151A GC/MS MODIFIED 09/03/1998 09/03/1998
Organics 60-57-1 Dieldrin SW-846 8080 09/13/1995 09/14/1995
Organics 84-66-2 Diethyl phthalate SW-846 8270 09/13/1995 09/14/1995
Organics 131-11-3 Dimethyl phthalate SW-846 8270 09/13/1995 09/14/1995
Organics 84-74-2 Di-N-butyl phthalate SW-846 8270 09/13/1995 09/14/1995
Organics 117-84-0 Di-N-octyl phthalate SW-846 8270 09/13/1995 09/14/1995
Organics 88-85-7 Dinoseb EPA 615 09/13/1995 09/14/1995
Organics 88-85-7 Dinoseb SW-846 8151A GC/MS MODIFIED 09/03/1998 09/03/1998
Organics 959-98-8 Endosulfan I SW-846 8080 09/13/1995 09/14/1995
Organics 33213-65-9 Endosulfan II SW-846 8080 09/13/1995 09/14/1995
Organics 1031-07-8 Endosulfan sulfate SW-846 8080 09/13/1995 09/14/1995
Organics 72-20-8 Endrin SW-846 8080 09/13/1995 09/14/1995
Organics 7421-93-4 Endrin aldehyde SW-846 8080 09/13/1995 09/14/1995
Organics 100-41-4 Ethylbenzene SW-846 8260 09/13/1995 09/14/1995
Organics 206-44-0 Fluoranthene SW-846 8270 09/13/1995 09/14/1995
Organics 86-73-7 Fluorene SW-846 8270 09/13/1995 09/14/1995
Organics 58-89-9 gamma-BHC (Lindane) SW-846 8080 09/13/1995 09/14/1995
Organics 76-44-8 Heptachlor SW-846 8080 09/13/1995 09/14/1995
Organics 1024-57-3 Heptachlor epoxide A & B SW-846 8080 09/13/1995 09/14/1995
Organics 118-74-1 Hexachlorobenzene SW-846 8270 09/13/1995 09/14/1995
Organics 87-68-3 Hexachlorobutadiene SW-846 8270 09/13/1995 09/14/1995
Organics 77-47-4 Hexachlorocyclopentadiene SW-846 8270 09/13/1995 09/14/1995
Organics 67-72-1 Hexachloroethane SW-846 8270 09/13/1995 09/14/1995
Organics 193-39-5 Indeno(1,2,3-cd)pyrene SW-846 8270 09/13/1995 09/14/1995
Organics 78-59-1 Isophorone SW-846 8270 09/13/1995 09/14/1995
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Parameter Category
CAS Number Parameter Method Start End
Organics 94-74-6 MCPA ([4-Chloro-2-methylphenoxy]acetic acid) EPA 615 09/13/1995 09/14/1995
Organics 94-74-6 MCPA ([4-Chloro-2-methylphenoxy]acetic acid) SW-846 8151A GC/MS MODIFIED 09/03/1998 09/03/1998
Organics 7085-19-0 MCPP (Mecoprop) (2-[4-Chloro-2-methyl phenoxy] propionic acid) EPA 615 09/13/1995 09/14/1995
Organics 7085-19-0 MCPP (Mecoprop) (2-[4-Chloro-2-methyl phenoxy] propionic acid) SW-846 8151A GC/MS MODIFIED 09/03/1998 09/03/1998
Organics 72-43-5 Methoxychlor SW-846 8080 09/13/1995 09/14/1995
Organics 75-09-2 Methylene chloride (Dichloromethane) SW-846 8260 09/13/1995 09/14/1995
Organics 91-20-3 Naphthalene SW-846 8270 09/13/1995 09/14/1995
Organics 98-95-3 Nitrobenzene SW-846 8270 09/13/1995 09/14/1995
Organics 62-75-9 N-Nitrosodimethylamine SW-846 8270 09/13/1995 09/14/1995
Organics 621-64-7 N-Nitrosodi-N-propylamine SW-846 8270 09/13/1995 09/14/1995
Organics 86-30-6 N-Nitrosodiphenylamine SW-846 8270 09/13/1995 09/14/1995
Organics 12674-11-2 PCB 1016 SW-846 8080 09/13/1995 09/14/1995
Organics 11104-28-2 PCB 1221 SW-846 8080 09/13/1995 09/14/1995
Organics 11141-16-5 PCB 1232 SW-846 8080 09/13/1995 09/14/1995
Organics 53469-21-9 PCB 1242 SW-846 8080 09/13/1995 09/14/1995
Organics 12672-29-6 PCB 1248 SW-846 8080 09/13/1995 09/14/1995
Organics 11097-69-1 PCB 1254 SW-846 8080 09/13/1995 09/14/1995
Organics 11096-82-5 PCB 1260 SW-846 8080 09/13/1995 09/14/1995
Organics 87-86-5 Pentachlorophenol SW-846 8270 09/13/1995 09/14/1995
Organics 85-01-8 Phenanthrene SW-846 8270 09/13/1995 09/14/1995
Organics 108-95-2 Phenol SW-846 8270 09/13/1995 09/14/1995
Organics 129-00-0 Pyrene SW-846 8270 09/13/1995 09/14/1995
Organics 100-42-5 Styrene SW-846 8260 09/13/1995 09/14/1995
Organics 127-18-4 Tetrachloroethylene SW-846 8260 09/13/1995 09/14/1995
Organics 108-88-3 Toluene SW-846 8260 09/13/1995 09/14/1995
Organics 1330-20-7 Total Xylenes SW-846 8260 09/13/1995 09/14/1995
Organics 8001-35-2 Toxaphene SW-846 8080 09/13/1995 09/14/1995
Organics 156-60-5 trans-1,2-Dichloroethylene SW-846 8260 09/13/1995 09/14/1995
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Parameter Category
CAS Number Parameter Method Start End
Organics 10061-02-6 trans-1,3-Dichloropropene SW-846 8260 09/13/1995 09/14/1995
Organics 2307-49-5 Tricamba EPA 615 09/13/1995 09/14/1995
Organics 79-01-6 Trichloroethylene SW-846 8260 09/13/1995 09/14/1995
Organics 75-69-4 Trichlorofluoromethane SW-846 8260 09/13/1995 09/14/1995
Organics 108-05-4 Vinyl acetate SW-846 8260 09/13/1995 09/14/1995
Organics 75-01-4 Vinyl chloride (Chloroethene) SW-846 8260 09/13/1995 09/14/1995
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Appendix C:
Summary Statistics for Grain Size Distribution
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Table 10. Summary statistics for sediment grain size distribution
Gravel (%) Sand (%) Silt (%) Clay (%) Sample Site [Site Name +
(Locator code)| N
Average Minimum Maximum Std. Dev. Average Minimum Maximum
Std. Dev. Average Minimum Maximum
Std. Dev. Average Minimum Maximum Std. Dev.
Bear Creek (0484) 14 21.80 0 78.43 20.17 70.98 17.59 95.1 18.97 4.54 0 27 6.81 2.40 0 18.84 4.92
Big Soos Creek (A320) 24 9.26 0 35.5 11.19 81.36 53.5 95.6 11.86 7.48 0 24.5 6.03 1.80 0 18.15 3.79
Coal Creek East (0442) 14 26.18 0 64.5 18.66 65.93 33.6 95.68 17.19 5.73 0 16.2 4.89 1.27 0 6.5 1.87
Crisp Creek (0321) 10 2.69 1.5 10.1 2.63 68.38 62 78.5 6.54 25.25 15.7 35.6 6.21 3.78 0.4 16.7 4.86
Ebright Creek (A685) 7 32.23 13.9 50.6 13.24 63.10 45.1 81.6 13.04 3.70 0 6.4 1.99 0.50 0 1.3 0.48
Eden Creek (A690) 7 24.24 3.5 58 19.44 68.90 40.7 87.4 16.26 5.74 2.2 11.2 2.92 1.53 0.1 3.7 1.45
Fairweather Bay Trib (0498) 14 20.90 0 53.8 15.54 64.95 41.8 82.6 13.21 8.67 0 17 5.25 5.15 0 41.68 10.76
Forbes Creek (0456) 14 4.72 0 18.2 5.00 64.43 14 94.4 27.83 23.80 0 83.4 25.27 6.67 0 36.2 10.52
Idylwood Creek (A620) 9 35.84 9.2 52.8 13.29 62.56 43.4 89.8 13.73 1.29 0 3.4 1.25 0.28 0 1.5 0.53
Issaquah Creek (0631) 14 5.86 0 42.8 11.10 69.89 45.9 90.61 16.19 20.94 0.92 48 17.35 3.47 0.1 9.5 3.04
Juanita Creek (0446) 15 7.19 0 49.94 12.49 72.48 40 92 15.51 15.41 1.12 47 14.20 5.00 0.1 20.9 6.77
Lewis Creek (A617) 7 30.43 2.7 60.8 18.51 58.17 28 75.1 17.62 9.30 0 18.7 7.02 0.99 0 4 1.39
Little Bear Creek (0478) 14 29.66 0 73.63 19.86 66.27 24.76 88.7 17.33 2.38 0 5.56 1.61 2.07 0 19.33 5.11
Lyon Creek (0430) 14 9.06 0 42.07 12.01 78.59 56.64 93.1 9.88 8.55 0 22.9 7.79 2.77 0 18.36 4.94
May Creek (0440) 16 14.54 0 55.3 19.72 73.98 33.6 96.6 20.80 9.41 1.3 40.94 10.15 2.48 0.1 7.58 2.64
McAleer Creek (0432) 13 2.79 0 8.7 2.33 79.68 49.9 94.2 14.30 13.55 2.4 37.8 12.12 4.11 0.2 16.82 5.10
Mercer Slough (0444) 19 15.81 0 43.4 16.68 67.12 26.4 92.5 17.98 11.83 1.5 62.7 13.99 5.57 0 32.71 7.69
Mill Creek (A315) 14 11.60 0 41.98 12.84 63.75 43.28 85.6 12.01 19.30 2.9 31.3 7.97 5.26 0.4 24.58 6.29
Newaukum Creek (0322) 14 11.41 0 42.7 11.76 76.50 52.4 95.4 12.80 9.61 0 33.7 10.66 1.64 0 8.28 2.36
North Creek (0474) 14 26.37 0 56.3 22.05 65.29 41.2 95.2 17.89 6.10 0 28.4 7.40 2.30 0 17.08 4.48
Pine Lake Creek (A680) 9 14.56 1.3 36.4 12.78 77.28 59.4 92.8 11.24 6.98 2.3 21.3 5.84 1.16 0.2 2.2 0.62
Pipers Creek (0210) 11 18.66 1.3 34.8 12.99 77.24 63 93.8 10.77 3.35 0 15 4.26 0.90 0 4.2 1.60
Springbrook Creek (0317) 11 16.58 0 71.33 26.37 59.03 20.35 98.11 25.77 18.37 0.96 53.6 18.36 5.42 0 19.37 6.67
Swamp Creek (0470) 13 32.79 0 75.7 23.70 54.13 21.4 82.54 19.24 7.81 0 43 12.02 4.24 0 24 7.49
Thornton Creek (0434) 14 4.33 0 18.73 4.65 72.38 59.5 89.6 7.26 18.49 5.82 33.9 8.58 4.92 0.2 21.4 5.81
Tibbetts Creek (0630) 12 17.38 0 50.9 16.98 68.32 41 90.7 15.37 10.61 0.37 25.1 7.40 3.78 0.2 12.1 4.41
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Gravel (%) Sand (%) Silt (%) Clay (%) Sample Site [Site Name +
(Locator code)| N
Average Minimum Maximum Std. Dev. Average Minimum Maximum
Std. Dev. Average Minimum Maximum
Std. Dev. Average Minimum Maximum Std. Dev.
Yarrow Bay Trib (0499) 14 12.04 0 54.72 14.86 74.03 26 93.9 19.09 11.02 0 56 16.55 2.79 0 16 5.19
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Appendix D:
Chemical Parameter Results
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Appendix D-1:
Summary Statistics for Chemical Parameters
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Table 11. Summary statistics for chemical parameters in freshwater stream sediments, King County, Washington
Category Parameter
Units (dry wt) N
FOD (%)
Min. MDL
Max. MDL
Min. Adjusted
Value
Max. Adjusted
Value
Average Adjusted
Value
Std. Dev. Adjusted
Value
Min. Detected
Value
Max. Detected
Value Start Date End Date
Conventionals Oil, Diesel Range Hydrocarbons (>C12-C24) mg/kg 229 3.06 27.06 584.11 13.53 292.06 40.06 29.36 38.76 171.97 8/23/1994 7/31/2002 Conventionals Oil, Gasoline Range Hydrocarbons (C7-C12) mg/kg 229 0.87 11.27 233.64 5.64 116.82 15.40 10.28 15.50 32.63 8/23/1994 7/31/2002 Conventionals Oil, Lube Oil Range Hydrocarbons (>C24) mg/kg 229 37.99 27.06 1168.22 13.53 1382.02 174.86 238.02 34.48 1382.02 8/23/1994 7/31/2002 Conventionals Oil, Total Petroleum Hydrocarbons (TPH) mg/kg 22 86.36 2.44 13.33 1.22 1169.81 195.94 274.84 9.50 1169.81 8/25/1993 8/25/1993 Metals Aluminum, Total mg/kg 96 100.00 5.62 114.49 N/A N/A N/A N/A 4788.73 24000.00 8/25/1993 8/28/1996 Metals Arsenic, Total mg/kg 122 29.51 2.71 57.24 1.35 40.00 5.88 5.98 3.85 40.00 8/25/1993 9/3/1998 Metals Barium, Total mg/kg 100 100.00 0.05 1.14 N/A N/A N/A N/A 17.38 193.02 8/23/1994 9/3/1998 Metals Beryllium, Total mg/kg 122 87.70 0.05 1.14 0.03 0.66 0.25 0.14 0.06 0.66 8/25/1993 9/3/1998 Metals Cadmium, Total mg/kg 375 20.80 0.01 3.39 0.00 2.80 0.24 0.30 0.05 2.80 9/29/1987 7/31/2002 Metals Chromium, Total mg/kg 375 100.00 0.27 5.72 N/A N/A N/A N/A 7.88 65.00 9/29/1987 7/31/2002 Metals Copper, Total mg/kg 375 100.00 0.21 4.56 N/A N/A N/A N/A 2.93 72.00 9/29/1987 7/31/2002 Metals Iron, Total mg/kg 136 100.00 2.87 57.24 N/A N/A N/A N/A 8303.25 36860.47 8/8/1989 8/28/1996 Metals Lead, Total mg/kg 375 88.00 1.58 33.88 0.92 194.43 17.58 28.76 1.91 194.43 9/29/1987 7/31/2002 Metals Magnesium, Total mg/kg 155 100.00 1.58 33.88 N/A N/A N/A N/A 1878.38 10036.50 9/3/1991 9/3/1998 Metals Manganese, Total mg/kg 96 100.00 0.11 2.34 N/A N/A N/A N/A 118.38 2686.05 8/25/1993 8/28/1996 Metals Mercury, Total mg/kg 314 39.17 0.01 0.22 0.01 0.29 0.04 0.04 0.02 0.29 8/8/1989 7/31/2002 Metals Nickel, Total mg/kg 375 100.00 1.08 23.36 N/A N/A N/A N/A 7.43 64.00 9/29/1987 7/31/2002 Metals Selenium, Total mg/kg 107 0.93 2.71 57.24 1.35 28.62 3.82 3.26 5.30 5.30 8/25/1993 9/3/1998 Metals Silver, Total mg/kg 176 13.64 0.23 4.56 0.11 2.28 0.35 0.28 0.38 1.54 9/6/1990 9/3/1998 Metals Thallium, Total mg/kg 122 1.64 10.82 233.64 5.41 116.82 14.64 12.56 12.29 17.75 8/25/1993 9/3/1998 Metals Zinc, Total mg/kg 375 100.00 0.27 5.72 N/A N/A N/A N/A 22.67 326.67 9/29/1987 7/31/2002 Organics Anthracene µg/kg 7 14.29 19.46 27.59 9.73 36.98 15.37 9.62 36.98 36.98 9/13/1995 9/14/1995 Organics Benzo(a)anthracene µg/kg 7 14.29 19.46 27.59 9.73 204.84 39.35 72.99 204.84 204.84 9/13/1995 9/14/1995 Organics Benzo(b)fluoranthene µg/kg 7 14.29 52.31 74.14 26.16 221.91 58.80 72.01 221.91 221.91 9/13/1995 9/14/1995 Organics Benzo(k)fluoranthene µg/kg 7 14.29 52.31 74.14 26.16 126.03 45.10 35.86 126.03 126.03 9/13/1995 9/14/1995 Organics Benzo(g,h,i)perylene µg/kg 7 14.29 32.85 46.55 16.42 126.74 35.12 40.46 126.74 126.74 9/13/1995 9/14/1995 Organics Benzo(a)pyrene µg/kg 7 14.29 32.85 46.55 16.42 114.79 33.42 35.95 114.79 114.79 9/13/1995 9/14/1995 Organics Bis(2-ethylhexyl)phthalate µg/kg 7 14.29 19.46 27.59 9.73 293.10 51.61 106.49 293.10 293.10 9/13/1995 9/14/1995
Organics Chlordane (Technical; mix of alpha- and gamma- isomers) µg/kg 7 14.29 8.15 11.55 4.08 16.62 6.55 4.47 16.62 16.62 9/13/1995 9/14/1995
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Category Parameter
Units (dry wt) N
FOD (%)
Min. MDL
Max. MDL
Min. Adjusted
Value
Max. Adjusted
Value
Average Adjusted
Value
Std. Dev. Adjusted
Value
Min. Detected
Value
Max. Detected
Value Start Date End Date
Organics Chrysene µg/kg 7 14.29 19.46 27.59 9.73 248.93 45.65 89.65 248.93 248.93 9/13/1995 9/14/1995 Organics Dieldrin µg/kg 7 14.29 1.58 2.24 0.79 2.27 1.13 0.51 2.27 2.27 9/13/1995 9/14/1995 Organics Fluoranthene µg/kg 7 28.57 19.46 27.59 9.73 665.72 106.98 246.44 25.08 665.72 9/13/1995 9/14/1995 Organics Indeno(1,2,3-cd)pyrene µg/kg 7 14.29 32.85 46.55 16.42 123.04 34.59 39.07 123.04 123.04 9/13/1995 9/14/1995 Organics Phenanthrene µg/kg 7 14.29 19.46 27.59 9.73 311.52 54.59 113.31 311.52 311.52 9/13/1995 9/14/1995 Organics Pyrene µg/kg 7 14.29 19.46 27.59 9.73 442.39 73.28 162.77 442.39 442.39 9/13/1995 9/14/1995 Metals Antimony, Total mg/kg 1 0.00 4.25 4.25 2.12 2.12 2.12 N/A N/A N/A 9/13/1995 9/13/1995 Metals Molybdenum, Total mg/kg 122 0.00 1.08 23.36 0.54 11.68 1.45 1.26 N/A N/A 8/25/1993 9/3/1998 Metals Tin, Total mg/kg 27 0.00 3.94 13.57 1.97 6.78 2.69 1.03 N/A N/A 8/26/1996 8/28/1996 Organics Acenaphthene µg/kg 7 0.00 13.38 18.97 6.69 9.48 8.05 0.91 N/A N/A 9/13/1995 9/14/1995 Organics Acenaphthylene µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics Acetone µg/kg 7 0.00 30.41 43.10 15.21 21.55 18.30 2.07 N/A N/A 9/13/1995 9/14/1995 Organics Acrolein µg/kg 7 0.00 30.41 43.10 15.21 21.55 18.30 2.07 N/A N/A 9/13/1995 9/14/1995 Organics Acrylonitrile µg/kg 7 0.00 30.41 43.10 15.21 21.55 18.30 2.07 N/A N/A 9/13/1995 9/14/1995 Organics Aldrin µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics Aniline µg/kg 7 0.00 64.48 91.38 32.24 45.69 38.79 4.39 N/A N/A 9/13/1995 9/14/1995 Organics Benzene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Benzidine µg/kg 7 0.00 778.59 1103.45 389.29 551.72 468.38 52.96 N/A N/A 9/13/1995 9/14/1995 Organics Benzoic acid µg/kg 7 0.00 133.82 189.66 66.91 94.83 80.50 9.10 N/A N/A 9/13/1995 9/14/1995 Organics Benzyl alcohol µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Benzyl butyl phthalate µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics alpha-BHC µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics beta-BHC µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics delta-BHC µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics gamma-BHC (Lindane) µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics Bis(2-chloroethoxy)methane µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Bis(2-chloroethyl)ether µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics Bis(2-chloroisopropyl)ether µg/kg 7 0.00 64.48 91.38 32.24 45.69 38.79 4.39 N/A N/A 9/13/1995 9/14/1995 Organics Bromodichloromethane µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Bromoform µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Bromomethane µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics 4-Bromophenyl phenyl ether µg/kg 7 0.00 13.38 18.97 6.69 9.48 8.05 0.91 N/A N/A 9/13/1995 9/14/1995
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Category Parameter
Units (dry wt) N
FOD (%)
Min. MDL
Max. MDL
Min. Adjusted
Value
Max. Adjusted
Value
Average Adjusted
Value
Std. Dev. Adjusted
Value
Min. Detected
Value
Max. Detected
Value Start Date End Date
Organics 2-Butanone (MEK) µg/kg 7 0.00 30.41 43.10 15.21 21.55 18.30 2.07 N/A N/A 9/13/1995 9/14/1995 Organics Carbazole µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Carbon disulfide µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Carbon tetrachloride µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics 4-Chloroaniline µg/kg 7 0.00 64.48 91.38 32.24 45.69 38.79 4.39 N/A N/A 9/13/1995 9/14/1995 Organics Chlorobenzene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Chlorodibromomethane µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Chloroethane (Ethyl chloride) µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics 2-Chloroethyl vinyl ether µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Chloroform (Trichloromethane) µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Chloromethane (Methyl chloride) µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics 4-Chloro-3-methylphenol µg/kg 7 0.00 64.48 91.38 32.24 45.69 38.79 4.39 N/A N/A 9/13/1995 9/14/1995 Organics 2-Chloronaphthalene µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics 2-Chlorophenol µg/kg 7 0.00 64.48 91.38 32.24 45.69 38.79 4.39 N/A N/A 9/13/1995 9/14/1995 Organics 4-Chlorophenyl phenyl ether µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics Coprostanol (5-beta-Cholestan-3-one) µg/kg 7 0.00 133.82 189.66 66.91 94.83 80.50 9.10 N/A N/A 9/13/1995 9/14/1995 Organics 2,4-D (2,4-Dichlorophenoxyacetic acid) µg/kg 6 0.00 12.04 1202.11 6.02 601.06 108.07 241.55 N/A N/A 9/13/1995 9/3/1998 Organics Dalapon µg/kg 7 0.00 15.36 75.53 7.68 37.76 24.08 12.65 N/A N/A 9/13/1995 9/3/1998 Organics 2,4-DB (4-[2,4-Dichlorophenoxy]butyric acid) µg/kg 7 0.00 12.02 34.91 6.01 17.45 8.62 4.01 N/A N/A 9/13/1995 9/3/1998 Organics 4,4'-DDD µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics 4,4'-DDE µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics 4,4'-DDT µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics Dibenzo(a,h)anthracene µg/kg 7 0.00 52.31 74.14 26.16 37.07 31.47 3.56 N/A N/A 9/13/1995 9/14/1995 Organics Dibenzofuran µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Dicamba µg/kg 7 0.00 12.02 34.91 6.01 17.45 8.62 4.01 N/A N/A 9/13/1995 9/3/1998 Organics 1,2-Dichlorobenzene (o- ) µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics 1,3-Dichlorobenzene (m- ) µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics 1,4-Dichlorobenzene (p- ) µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics 3,3'-Dichlorobenzidine µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics 1,1-Dichloroethane µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics 1,2-Dichloroethane µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics 1,1-Dichloroethylene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995
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King County 46 printed 04/20/2006 15:53:40
Category Parameter
Units (dry wt) N
FOD (%)
Min. MDL
Max. MDL
Min. Adjusted
Value
Max. Adjusted
Value
Average Adjusted
Value
Std. Dev. Adjusted
Value
Min. Detected
Value
Max. Detected
Value Start Date End Date
Organics trans-1,2-Dichloroethylene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics 2,4-Dichlorophenol µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Dichloroprop µg/kg 7 0.00 12.02 34.91 6.01 17.45 8.62 4.01 N/A N/A 9/13/1995 9/3/1998 Organics 1,2-Dichloropropane µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics cis-1,3-Dichloropropene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics trans-1,3-Dichloropropene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Diethyl phthalate µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Dimethyl phthalate µg/kg 7 0.00 13.38 18.97 6.69 9.48 8.05 0.91 N/A N/A 9/13/1995 9/14/1995 Organics 2,4-Dimethylphenol µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Di-N-butyl phthalate µg/kg 7 0.00 32.85 46.55 16.42 23.27 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics 4,6-Dinitro-o-cresol µg/kg 7 0.00 64.48 91.38 32.24 45.69 38.79 4.39 N/A N/A 9/13/1995 9/14/1995 Organics 2,4-Dinitrophenol µg/kg 7 0.00 64.48 91.38 32.24 45.69 38.79 4.39 N/A N/A 9/13/1995 9/14/1995 Organics 2,4-Dinitrotoluene µg/kg 7 0.00 13.38 18.97 6.69 9.48 8.05 0.91 N/A N/A 9/13/1995 9/14/1995 Organics 2,6-Dinitrotoluene µg/kg 7 0.00 13.38 18.97 6.69 9.48 8.05 0.91 N/A N/A 9/13/1995 9/14/1995 Organics Dinoseb µg/kg 7 0.00 12.02 34.91 6.01 17.45 8.62 4.01 N/A N/A 9/13/1995 9/3/1998 Organics Di-N-octyl phthalate µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics 1,2-Diphenylhydrazine µg/kg 7 0.00 64.48 91.38 32.24 45.69 38.79 4.39 N/A N/A 9/13/1995 9/14/1995 Organics Endosulfan I µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics Endosulfan II µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics Endosulfan sulfate µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics Endrin µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics Endrin aldehyde µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics Ethylbenzene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Fluorene µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics Heptachlor µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics Heptachlor epoxide A & B µg/kg 7 0.00 1.58 2.24 0.79 1.12 0.95 0.11 N/A N/A 9/13/1995 9/14/1995 Organics Hexachlorobenzene µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics Hexachlorobutadiene µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Hexachlorocyclopentadiene µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Hexachloroethane µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics 2-Hexanone (MBK; Methyl n-butyl ketone) µg/kg 7 0.00 30.41 43.10 15.21 21.55 18.30 2.07 N/A N/A 9/13/1995 9/14/1995 Organics Isophorone µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
King County 47 printed 04/20/2006 15:53:40
Category Parameter
Units (dry wt) N
FOD (%)
Min. MDL
Max. MDL
Min. Adjusted
Value
Max. Adjusted
Value
Average Adjusted
Value
Std. Dev. Adjusted
Value
Min. Detected
Value
Max. Detected
Value Start Date End Date
Organics MCPA ([4-Chloro-2-methylphenoxy]acetic acid) µg/kg 7 0.00 15.36 22658.61 7.68 11329.31 5815.15 5489.05 N/A N/A 9/13/1995 9/3/1998
Organics MCPP (Mecoprop) (2-[4-Chloro-2-methyl phenoxy] propionic acid) µg/kg 7 0.00 15.36 22658.61 7.68 11329.31 5815.15 5489.05 N/A N/A 9/13/1995 9/3/1998
Organics Methoxychlor µg/kg 7 0.00 8.15 11.55 4.08 5.78 4.90 0.55 N/A N/A 9/13/1995 9/14/1995 Organics 4-Methyl-2-pentanone (MIBK) µg/kg 7 0.00 30.41 43.10 15.21 21.55 18.30 2.07 N/A N/A 9/13/1995 9/14/1995 Organics Methylene chloride (Dichloromethane) µg/kg 7 0.00 30.41 43.10 15.21 21.55 18.30 2.07 N/A N/A 9/13/1995 9/14/1995 Organics 2-Methylnaphthalene µg/kg 7 0.00 52.31 74.14 26.16 37.07 31.47 3.56 N/A N/A 9/13/1995 9/14/1995 Organics 2-Methylphenol µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics 4-Methylphenol µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Naphthalene µg/kg 7 0.00 52.31 74.14 26.16 37.07 31.47 3.56 N/A N/A 9/13/1995 9/14/1995 Organics 2-Nitroaniline (o- ) µg/kg 7 0.00 133.82 189.66 66.91 94.83 80.50 9.10 N/A N/A 9/13/1995 9/14/1995 Organics 3-Nitroaniline (m- ) µg/kg 7 0.00 133.82 189.66 66.91 94.83 80.50 9.10 N/A N/A 9/13/1995 9/14/1995 Organics 4-Nitroaniline (p- ) µg/kg 7 0.00 133.82 189.66 66.91 94.83 80.50 9.10 N/A N/A 9/13/1995 9/14/1995 Organics Nitrobenzene µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics 2-Nitrophenol µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics 4-Nitrophenol µg/kg 7 0.00 64.48 91.38 32.24 45.69 38.79 4.39 N/A N/A 9/13/1995 9/14/1995 Organics N-Nitrosodimethylamine µg/kg 7 0.00 133.82 189.66 66.91 94.83 80.50 9.10 N/A N/A 9/13/1995 9/14/1995 Organics N-Nitrosodiphenylamine µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics N-Nitrosodi-N-propylamine µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics PCB 1016 µg/kg 7 0.00 15.82 22.41 7.91 11.21 9.51 1.08 N/A N/A 9/13/1995 9/14/1995 Organics PCB 1221 µg/kg 7 0.00 15.82 22.41 7.91 11.21 9.51 1.08 N/A N/A 9/13/1995 9/14/1995 Organics PCB 1232 µg/kg 7 0.00 15.82 22.41 7.91 11.21 9.51 1.08 N/A N/A 9/13/1995 9/14/1995 Organics PCB 1242 µg/kg 7 0.00 15.82 22.41 7.91 11.21 9.51 1.08 N/A N/A 9/13/1995 9/14/1995 Organics PCB 1248 µg/kg 7 0.00 15.82 22.41 7.91 11.21 9.51 1.08 N/A N/A 9/13/1995 9/14/1995 Organics PCB 1254 µg/kg 7 0.00 15.82 22.41 7.91 11.21 9.51 1.08 N/A N/A 9/13/1995 9/14/1995 Organics PCB 1260 µg/kg 7 0.00 15.82 22.41 7.91 11.21 9.51 1.08 N/A N/A 9/13/1995 9/14/1995 Organics Pentachlorophenol µg/kg 7 0.00 32.85 46.55 16.42 23.28 19.76 2.23 N/A N/A 9/13/1995 9/14/1995 Organics Phenol µg/kg 7 0.00 133.82 189.66 66.91 94.83 80.50 9.10 N/A N/A 9/13/1995 9/14/1995 Organics Styrene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics 2,4,5-T (2,4,5-Trichlorophenoxyacetic acid) µg/kg 7 0.00 12.02 34.91 6.01 17.45 8.62 4.01 N/A N/A 9/13/1995 9/3/1998 Organics 1,1,2,2-Tetrachloroethane µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Tetrachloroethylene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
King County 48 printed 04/20/2006 15:53:40
Category Parameter
Units (dry wt) N
FOD (%)
Min. MDL
Max. MDL
Min. Adjusted
Value
Max. Adjusted
Value
Average Adjusted
Value
Std. Dev. Adjusted
Value
Min. Detected
Value
Max. Detected
Value Start Date End Date
Organics Toluene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Toxaphene µg/kg 7 0.00 15.82 22.41 7.91 11.21 9.51 1.08 N/A N/A 9/13/1995 9/14/1995
Organics 2,4,5-TP (Silvex) (2-[2,4,5-Trichlorophenoxy]propionic acid) µg/kg 7 0.00 12.02 34.91 6.01 17.45 8.62 4.01 N/A N/A 9/13/1995 9/3/1998
Organics Tricamba µg/kg 4 0.00 12.02 14.95 6.01 7.48 6.62 0.73 N/A N/A 9/13/1995 9/14/1995 Organics 1,2,4-Trichlorobenzene µg/kg 7 0.00 19.46 27.59 9.73 13.79 11.71 1.32 N/A N/A 9/13/1995 9/14/1995 Organics 1,1,1-Trichloroethane µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics 1,1,2-Trichloroethane µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Trichloroethylene µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Trichlorofluoromethane µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics 2,4,5-Trichlorophenol µg/kg 7 0.00 133.82 189.66 66.91 94.83 80.50 9.10 N/A N/A 9/13/1995 9/14/1995 Organics 2,4,6-Trichlorophenol µg/kg 7 0.00 133.82 189.66 66.91 94.83 80.50 9.10 N/A N/A 9/13/1995 9/14/1995 Organics Vinyl acetate µg/kg 7 0.00 30.41 43.10 15.21 21.55 18.30 2.07 N/A N/A 9/13/1995 9/14/1995 Organics Vinyl chloride (Chloroethene) µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995 Organics Total Xylenes µg/kg 7 0.00 6.08 8.62 3.04 4.31 3.66 0.41 N/A N/A 9/13/1995 9/14/1995
N – Number of Samples FOD – Frequency of Detection MDL – Method Detection Limit N/A – Not applicable
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
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Appendix D-2:
Chemical Parameters Graphs by Sampling Location
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
King County 50 printed 04/20/2006 15:53:40
Forbes Creek
Sample Date1994 1995 1996 1997 1998
mg/
kg d
ry w
t.
0
10
20
30
40
50
60
PELTELSQSCSLSediment Arsenic Concentration
McAleer Creek
Sample Date1994 1995 1996 1997 1998
mg/
kg d
ry w
t.
0
10
20
30
40
50
60
Mercer Slough
Sample Date1994 1995 1996 1997 1998
mg/
kg d
ry w
t.
0
10
20
30
40
50
60Mill Creek
Sample Date1994 1995 1996 1997 1998
mg/
kg d
ry w
t.
0
10
20
30
40
50
60
Figure 3. Arsenic concentration in sediment (mg/kg dry wt) at sites exceeding arsenic PEL or CSL for all sampling dates.
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
King County 51 printed 04/20/2006 15:53:40
Forbes Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
1
2
3
4
PELTELCSLSQS Sediment Cadmium Concentration
Springbrook Creek
Sample Date
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
1
2
3
4
Figure 4. Cadmium concentration in sediment (mg/kg dry wt) at sites exceeding the cadmium PEL or CSL for all sampling dates.
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
King County 52 printed 04/20/2006 15:53:40
Fairweather Bay Trib
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
100
200
300
400
500
PELTELSQSCSLSediment Lead Concentration
Forbes Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
100
200
300
400
500
Mill Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
100
200
300
400
500Thornton Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
100
200
300
400
500
Figure 5. Lead concentration in sediment (mg/kg dry wt) at sites exceeding the lead PEL or CSL for all sampling dates.
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Big Soos Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
10
20
30
40
50
60
70
80Fairweather Bay Trib
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
10
20
30
40
50
60
70
80
Forbes Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
10
20
30
40
50
60
70
80Idylwood Creek
Sample Date19
96
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
10
20
30
40
50
60
70
80
Juanita Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
10
20
30
40
50
60
70
80Little Bear Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
10
20
30
40
50
60
70
80
Lyon Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
10
20
30
40
50
60
70
80May Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
10
20
30
40
50
60
70
80
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
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Thornton Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
10
20
30
40
50
60
70
80
PELTELSQSCSLSediment Nickel Concentration
Yarrow Bay Trib
Sample Date
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
10
20
30
40
50
60
70
80
McAleer Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
10
20
30
40
50
60
70
80
Figure 6. Nickel concentration in sediment (mg/kg dry wt) at sites exceeding the nickel PEL or CSL for all sampling dates.
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
King County 55 printed 04/20/2006 15:53:40
Fairweather Bay Trib
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
50
100
150
200
250
300
350Forbes Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
50
100
150
200
250
300
350
Juanita Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
50
100
150
200
250
300
350 Lyon Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
50
100
150
200
250
300
350
Springbrook Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
50
100
150
200
250
300
350McAleer Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
50
100
150
200
250
300
350
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King County 56 printed 04/20/2006 15:53:40
Thornton Creek
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
50
100
150
200
250
300
350
PELTELSQSCSLSediment Zinc Concentration
Yarrow Bay Trib
Sample Date19
88
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
mg/
kg d
ry w
t.
0
50
100
150
200
250
300
350
Figure 7. Zinc concentration in sediment (mg/kg dry wt) at sites exceeding the zinc PEL or CSL for all sampling dates.
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
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Appendix E:
Correlation Analysis Results
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
King County 58 printed 04/20/2006 15:53:40
Parameter
Clay
Grav
el
Sand
Silt
Fine
Coar
se
Alum
inum
Antim
ony
Arse
nic
Bariu
m
Beryl
lium
Cadm
ium
Chro
mium
Copp
er
Iron
Lead
Magn
esium
Mang
anes
e
Mercu
ry
Molyb
ednu
m
Nick
el
Selen
ium
Silve
r
Thall
ium
Zinc
Bis(2
-eth
ylhex
yl)ph
thalat
e
Fluor
anthe
ne
Correlation Coefficient
1.00
Sig. (2-tailed) .
Clay
N 331
Correlation Coefficient
-0.41 1.00
Sig. (2-tailed) 0.00 . Gravel
N 331 331
Correlation Coefficient
-0.01 -0.41 1.00
Sig. (2-tailed) 0.75 0.00 . Sand
N 331 331 331
Correlation Coefficient
0.40 -0.32 -0.17 1.00
Sig. (2-tailed) 0.00 0.00 0.00 . Silt
N 331 331 331 331
Correlation Coefficient
0.57 -0.42 -0.16 0.83 1.00
Sig. (2-tailed) 0.00 0.00 0.00 0.00 . Fine
N 331 331 331 331 331
Correlation Coefficient
-0.51 0.43 0.17 -0.77 -0.91 1.00
Sig. (2-tailed) 0.00 0.00 0.00 0.00 0.00 . Coarse
N 331 331 331 331 331 331
Correlation Coefficient
0.23 -0.27 -0.10 0.38 0.38 -0.38 1.00
Sig. (2-tailed) 0.00 0.00 0.14 0.00 0.00 0.00 . Aluminum
N 96 96 96 96 96 96 96
Correlation Coefficient
. . . . . . . .
Sig. (2-tailed) . . . . . . . . Antimony
N 1 1 1 1 1 1 1 1
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
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Parameter
Clay
Grav
el
Sand
Silt
Fine
Coar
se
Alum
inum
Antim
ony
Arse
nic
Bariu
m
Beryl
lium
Cadm
ium
Chro
mium
Copp
er
Iron
Lead
Magn
esium
Mang
anes
e
Mercu
ry
Molyb
ednu
m
Nick
el
Selen
ium
Silve
r
Thall
ium
Zinc
Bis(2
-eth
ylhex
yl)ph
thalat
e
Fluor
anthe
ne
Correlation Coefficient
0.10 -0.17 -0.08 0.33 0.31 -0.32 0.17 . 1.00
Sig. (2-tailed) 0.12 0.00 0.17 0.00 0.00 0.00 0.02 . . Arsenic
N 122 122 122 122 122 122 96 1 122
Correlation Coefficient
0.39 -0.22 -0.13 0.49 0.50 -0.50 0.64 . 0.30 1.00
Sig. (2-tailed) 0.00 0.00 0.05 0.00 0.00 0.00 0.00 . 0.00 . Barium
N 100 100 100 100 100 100 74 1 100 100
Correlation Coefficient
0.24 -0.16 -0.09 0.30 0.34 -0.34 0.49 . 0.33 0.50 1.00
Sig. (2-tailed) 0.00 0.01 0.16 0.00 0.00 0.00 0.00 . 0.00 0.00 . Beryllium
N 122 122 122 122 122 122 96 1 122 100 122
Correlation Coefficient
0.26 -0.21 -0.06 0.42 0.40 -0.39 0.21 . 0.50 0.37 0.27 1.00
Sig. (2-tailed) 0.00 0.00 0.10 0.00 0.00 0.00 0.00 . 0.00 0.00 0.00 . Cadmium
N 331 331 331 331 331 331 96 1 122 100 122 375
Correlation Coefficient
0.21 -0.21 0.00 0.24 0.26 -0.24 0.29 . 0.21 0.25 0.03 0.23 1.00
Sig. (2-tailed) 0.00 0.00 0.93 0.00 0.00 0.00 0.00 . 0.00 0.00 0.64 0.00 . Chromium
N 331 331 331 331 331 331 96 1 122 100 122 375 375
Correlation Coefficient
0.27 -0.20 -0.13 0.46 0.44 -0.46 0.49 . 0.28 0.64 0.44 0.35 0.17 1.00
Sig. (2-tailed) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 . 0.00 0.00 0.00 0.00 0.00 . Copper
N 331 331 331 331 331 331 96 1 122 100 122 375 375 375
Correlation Coefficient
0.14 -0.08 -0.20 0.27 0.25 -0.29 0.71 . 0.18 0.57 0.63 0.17 0.22 0.55 1.00
Sig. (2-tailed) 0.02 0.17 0.00 0.00 0.00 0.00 0.00 . 0.02 0.00 0.00 0.00 0.00 0.00 . Iron
N 135 135 135 135 135 135 74 1 74 74 74 136 136 136 136
Correlation Coefficient
0.26 -0.22 -0.04 0.37 0.37 -0.36 0.18 . 0.37 0.35 0.16 0.35 0.33 0.39 0.20 1.00
Sig. (2-tailed) 0.00 0.00 0.29 0.00 0.00 0.00 0.01 . 0.00 0.00 0.01 0.00 0.00 0.00 0.00 . Lead
N 331 331 331 331 331 331 96 1 122 100 122 375 375 375 136 375
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
King County 60 printed 04/20/2006 15:53:40
Parameter
Clay
Grav
el
Sand
Silt
Fine
Coar
se
Alum
inum
Antim
ony
Arse
nic
Bariu
m
Beryl
lium
Cadm
ium
Chro
mium
Copp
er
Iron
Lead
Magn
esium
Mang
anes
e
Mercu
ry
Molyb
ednu
m
Nick
el
Selen
ium
Silve
r
Thall
ium
Zinc
Bis(2
-eth
ylhex
yl)ph
thalat
e
Fluor
anthe
ne
Correlation Coefficient
0.06 -0.16 0.02 0.09 0.08 -0.11 0.42 . 0.00 0.26 0.09 0.06 0.47 0.26 0.45 0.13 1.00
Sig. (2-tailed) 0.27 0.01 0.70 0.13 0.17 0.06 0.00 . 0.95 0.00 0.13 0.25 0.00 0.00 0.00 0.02 . Magnesium
N 141 141 141 141 141 141 94 1 120 100 120 155 155 155 95 155 155
Correlation Coefficient
0.22 -0.05 -0.12 0.18 0.19 -0.20 0.32 . 0.22 0.49 0.23 0.19 0.22 0.32 0.40 0.29 0.13 1.00
Sig. (2-tailed) 0.00 0.48 0.08 0.01 0.01 0.00 0.00 . 0.00 0.00 0.00 0.01 0.00 0.00 0.00 0.00 0.06 . Manganese
N 96 96 96 96 96 96 96 1 96 74 96 96 96 96 74 96 94 96
Correlation Coefficient
0.35 -0.36 -0.03 0.51 0.51 -0.53 0.41 . 0.43 0.50 0.32 0.47 0.27 0.55 0.40 0.44 0.16 0.26 1.00
Sig. (2-tailed) 0.00 0.00 0.48 0.00 0.00 0.00 0.00 . 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 . Mercury
N 291 291 291 291 291 291 96 1 122 100 122 314 314 314 115 314 155 96 314
Correlation Coefficient
0.23 -0.28 -0.05 0.44 0.46 -0.46 0.23 . 0.60 0.31 0.32 0.73 0.26 0.30 0.18 0.36 0.06 0.20 0.52 1.00
Sig. (2-tailed) 0.00 0.00 0.40 0.00 0.00 0.00 0.00 . 0.00 0.00 0.00 0.00 0.00 0.00 0.02 0.00 0.31 0.00 0.00 . Molybednum
N 122 122 122 122 122 122 96 1 122 100 122 122 122 122 74 122 120 96 122 122
Correlation Coefficient
0.12 -0.17 0.06 0.13 0.14 -0.13 0.21 . 0.11 0.18 -0.02 0.15 0.69 0.14 0.16 0.32 0.51 0.19 0.17 0.18 1.00
Sig. (2-tailed) 0.00 0.00 0.12 0.00 0.00 0.00 0.00 . 0.07 0.01 0.80 0.00 0.00 0.00 0.01 0.00 0.00 0.01 0.00 0.00 . Nickel
N 331 331 331 331 331 331 96 1 122 100 122 375 375 375 136 375 155 96 314 122 375
Correlation Coefficient
0.20 -0.29 -0.06 0.41 0.43 -0.43 0.22 . 0.57 0.28 0.29 0.76 0.24 0.26 0.18 0.40 0.02 0.21 0.51 0.96 0.18 1.00
Sig. (2-tailed) 0.00 0.00 0.36 0.00 0.00 0.00 0.00 . 0.00 0.00 0.00 0.00 0.00 0.00 0.03 0.00 0.78 0.00 0.00 0.00 0.01 . Selenium
N 107 107 107 107 107 107 96 1 107 85 107 107 107 107 74 107 105 96 107 107 107 107
Correlation Coefficient
0.22 -0.24 -0.08 0.41 0.41 -0.42 0.23 . 0.61 0.33 0.32 0.58 0.20 0.31 0.22 0.34 0.07 0.20 0.47 0.92 0.15 0.90 1.00
Sig. (2-tailed) 0.00 0.00 0.12 0.00 0.00 0.00 0.00 . 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.19 0.00 0.00 0.00 0.00 0.00 . Silver
N 154 154 154 154 154 154 96 1 113 91 113 176 176 176 116 176 146 96 155 113 176 98 176
Correlation Coefficient
0.23 -0.26 -0.06 0.43 0.45 -0.45 0.26 . 0.61 0.32 0.34 0.71 0.26 0.31 0.22 0.34 0.09 0.22 0.51 0.97 0.17 0.93 0.89 1.00
Sig. (2-tailed) 0.00 0.00 0.30 0.00 0.00 0.00 0.00 . 0.00 0.00 0.00 0.00 0.00 0.00 0.01 0.00 0.16 0.00 0.00 0.00 0.01 0.00 0.00 . Thallium
N 122 122 122 122 122 122 96 1 122 100 122 122 122 122 74 122 120 96 122 122 122 107 113 122
Freshwater Stream Sediments: Review of Historical Monitoring Data 1987-2002
King County 61 printed 04/20/2006 15:53:40
Parameter
Clay
Grav
el
Sand
Silt
Fine
Coar
se
Alum
inum
Antim
ony
Arse
nic
Bariu
m
Beryl
lium
Cadm
ium
Chro
mium
Copp
er
Iron
Lead
Magn
esium
Mang
anes
e
Mercu
ry
Molyb
ednu
m
Nick
el
Selen
ium
Silve
r
Thall
ium
Zinc
Bis(2
-eth
ylhex
yl)ph
thalat
e
Fluor
anthe
ne
Correlation Coefficient
0.27 -0.23 -0.06 0.41 0.41 -0.41 0.41 . 0.34 0.53 0.30 0.41 0.35 0.48 0.42 0.65 0.29 0.40 0.50 0.39 0.30 0.41 0.35 0.41 1.00
Sig. (2-tailed) 0.00 0.00 0.09 0.00 0.00 0.00 0.00 . 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 . Zinc
N 331 331 331 331 331 331 96 1 122 100 122 375 375 375 136 375 155 96 314 122 375 107 176 122 375
Correlation Coefficient
0.68 -0.43 0.14 0.52 0.52 -0.52 -0.43 . 0.62 0.52 0.05 0.52 -0.14 0.14 -0.62 0.24 -0.52 0.33 0.14 0.62 -0.33 0.62 0.62 0.62 0.05 1.00
Sig. (2-tailed) 0.03 0.18 0.65 0.10 0.10 0.10 0.18 . 0.05 0.10 0.88 0.10 0.65 0.65 0.05 0.45 0.10 0.29 0.65 0.05 0.29 0.05 0.05 0.05 0.88 .
Bis(2-ethylhexyl) phthalate
N 7 7 7 7 7 7 7 0 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7
Correlation Coefficient
0.68 -0.81 0.52 0.71 0.71 -0.71 -0.24 . 0.43 0.71 0.43 0.52 -0.14 0.14 -0.24 0.05 -0.52 0.33 0.14 0.43 -0.33 0.43 0.24 0.43 0.43 0.62 1.00
Sig. (2-tailed) 0.03 0.01 0.10 0.02 0.02 0.02 0.45 . 0.18 0.02 0.18 0.10 0.65 0.65 0.45 0.88 0.10 0.29 0.65 0.18 0.29 0.18 0.45 0.18 0.18 0.05 . Fluoranthene
N 7 7 7 7 7 7 7 0 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7